Company Quick10K Filing
National Steel
20-F 2019-12-31 Filed 2020-04-03
20-F 2018-12-31 Filed 2019-04-05
20-F 2017-12-31 Filed 2018-05-01
20-F 2016-12-31 Filed 2017-12-26
20-F 2015-12-31 Filed 2016-05-16
20-F 2014-12-31 Filed 2015-04-30
20-F 2013-12-31 Filed 2014-04-30
20-F 2012-12-31 Filed 2013-04-30
20-F 2011-12-31 Filed 2012-04-30
20-F 2010-12-31 Filed 2011-06-20
20-F 2009-12-31 Filed 2010-06-01

SID 20F Annual Report

Item 17 1 Item 18 1
Part I
Item 1. Identity of Directors, Senior Management and Advisors
Item 2. Offer Statistics and Expected Timetable
Item 3. Key Information
Item 4. Information on The Company
Item 4A. Unresolved Staff Comments
Item 5. Operating and Financial Review and Prospects
Item 6. Directors, Senior Management and Employees
Item 7. Major Shareholders and Related Party Transactions
Item 8. Financial Information
Item 9. The Offer and Listing
Item 10. Additional Information
Item 11. Quantitative and Qualitative Disclosures About Market Risk
Item 12. Description of Securities Other Than Equity Securities
Item 13. Defaults, Dividend Arrearages and Delinquencies
Item 14. Material Modification To The Rights of Security Holders and Use of Proceeds
Part II
Item 15. Controls and Procedures
Item 16. [Reserved]
Item 17. Financial Statements
Part III
Item 18. Financial Statements
Item 19. Exhibits
EX-1.1 exhibit1_1.htm
EX-8.1 exhibit8_1.htm
EX-12.1 exhibit12_1.htm
EX-12.2 exhibit12_2.htm
EX-13.1 exhibit13_1.htm
EX-13.2 exhibit13_2.htm
EX-15.1 exhibit15_1.htm

National Steel Earnings 2013-12-31

Balance SheetIncome StatementCash Flow

20-F 1 sidform20f_2013.htm FORM 20-F sidform20f_2013.htm - Generated by SEC Publisher for SEC Filing

 

As filed with the Securities and Exchange Commission on April 30, 2014

UNITED STATES

SECURITIES AND EXCHANGE COMMISSION

Washington, D.C. 20549

 

FORM 20-F

 

1

REGISTRATION STATEMENT PURSUANT TO SECTION 12(b) OR (g) OF THE SECURITIES EXCHANGE ACT OF 1934

 

OR

R

ANNUAL REPORT PURSUANT TO SECTION 13 OR 15(d) OF
THE SECURITIES EXCHANGE ACT OF 1934

 

For the fiscal year ended December 31, 2013

 

OR

1

TRANSITION REPORT PURSUANT TO SECTION 13 OR 15(d) OF
THE SECURITIES EXCHANGE ACT OF 1934

 

OR

1

SHELL COMPANY REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934

 

Commission File Number 1-14732

 

COMPANHIA SIDERÚRGICA NACIONAL
(Exact Name of Registrant as Specified in its Charter)

NATIONAL STEEL COMPANY
(Translation of Registrant’s name into English)

THE FEDERATIVE REPUBLIC OF BRAZIL
(Jurisdiction of incorporation or organization)

 

David Moise Salama, Investor Relations Executive Officer
Phone: +55 11 3049-7588 Fax: +55 11 3049-7212

david.salama@csn.com.br
Av. Brigadeiro Faria Lima, 3,400 – 20th floor
04538-132, São Paulo-SP, Brazil

(Address of principal executive offices)

 

Securities registered or to be registered pursuant to Section 12(b) of the Act.

 

Title of each class

Name of each exchange on which registered

Common Shares without par value

New York Stock Exchange*

American Depositary Shares, (as evidenced by American Depositary Receipts), each representing one share of Common Stock

New York Stock Exchange

____________________

* Not for trading purposes, but only in connection with the registration of American Depositary Shares pursuant to the requirements of the Securities and Exchange Commission.

 


 

 

Securities registered or to be registered pursuant to Section 12(g) of the Act:

None

Securities for which there is a reporting obligation pursuant to Section 15(d) of the Act:

None

Indicate the number of outstanding shares of each of the issuer’s classes of capital or common stock as of the period covered by the annual report:

Common Shares, without par value.

1,457,970,108. For further information, see “Item 7A. Major Shareholders,” “Item 9A. Offer and Listing Details” and “Item 10B. Memorandum and Articles of Association.”

Indicate by check mark if the registrant is a well-known seasoned issuer, as defined in Rule 405 of the Securities Act.

R Yes 1 No

If this report is an annual or transition report, indicate by check mark if the registrant is not required to file reports pursuant to Section 13 or 15(d) of the Securities Exchange Act of 1934.

1 Yes R No

Indicate by check mark whether the registrant (1) has filed all reports required to be filed by Section 13 or 15(d) of the Securities Exchange Act of 1934 during the preceding 12 months (or for such shorter period that the registrant was required to file such reports), and (2) has been subject to such filing requirements for the past 90 days.

R Yes 1 No

Indicate by check mark whether the registrant has submitted electronically and posted on its corporate Web site, if any, every Interactive Data File required to be submitted and posted pursuant to Rule 405 of Regulation S-T (§232.405 of this chapter) during the preceding 12 months (or for such shorter period that the registrant was required to submit and post such files).

1 Yes 1  No

Indicate by check mark whether the registrant is a large accelerated filer, an accelerated filer, or a non-accelerated filer. See definition of “accelerated filer and large accelerated filer” in Rule 12b-2 of the Exchange Act. (Check one):

Large Accelerated Filer     Accelerated Filer 1    Non-accelerated Filer 1

Indicate by check mark which basis of accounting the registrant has used to prepare the financial statements included in this filing:

U.S. GAAP 1

International Financial Reporting Standards as issued by the International Accounting Standards Board

Other 1

If “Other” has been checked in response to the previous question, indicate by check mark which financial statement item the registrant has elected to follow:

Item 17 1 Item 18 1  

If this is an annual report, indicate by check mark whether the registrant is a shell company (as defined in Rule 12b-2 of the Exchange Act).

1 Yes   No

 


 

 

TABLE OF CONTENTS
 
  Page
 
Introduction 1
Forward-Looking Statements 2
Presentation of Financial and Other Information 3
Item 1. Identity of Directors, Senior Management and Advisors 3
Item 2. Offer Statistics and Expected Timetable 3
Item 3. Key Information 3
3A. Selected Financial Data 3
3B. Capitalization and Indebtedness 6
3C. Reasons for the Offer and Use of Proceeds 6
3D. Risk Factors 7
Item 4. Information on the Company 17
4A. History and Development of the Company 17
4B. Business Overview 19
4C. Organizational Structure 64
4D. Property, Plant and Equipment 64
Item 4A. Unresolved Staff Comments 70
Item 5. Operating and Financial Review and Prospects 70
5A. Operating Results 70
5B. Liquidity and Capital Resources 95
5C. Research & Development and Innovation 100
5D. Trend Information 101
5E. Off-Balance Sheet Arrangements 102
5F. Tabular Disclosure of Contractual Obligations 106
5G. Safe Harbor 106
Item 6. Directors, Senior Management and Employees 107
6A. Directors and Senior Management 107
6B. Compensation 110
6C. Board Practices 110
6D. Employees 110
6E. Share Ownership 111
Item 7. Major Shareholders and Related Party Transactions 111
7A. Major Shareholders 111
7B. Related Party Transactions 111
Item 8. Financial Information 111
8A. Consolidated Statements and Other Financial Information 111
8B. Significant Changes 116
Item 9. The Offer and Listing 116
9A. Offer and Listing Details 116
9B. Plan of Distribution 117
9C. Markets 117
9D. Selling Shareholders 120
9E. Dilution 120
9F. Expenses of the Issue 120
Item 10. Additional Information 120
10A. Share Capital 120
10B. Memorandum and Articles of Association 120
10C. Material Contracts 123
10D. Exchange Controls 123
10E. Taxation 124
10F. Dividends and Paying Agents 132
10G. Statement by Experts 132
10H. Documents on Display 132
 

 

 

 

 

10I. Subsidiary Information 133
Item 11. Quantitative and Qualitative Disclosures About Market Risk 133
Item 12. Description of Securities Other Than Equity Securities 140
Item 13. Defaults, Dividend Arrearages and Delinquencies 140
Item 14. Material Modification to the Rights of Security Holders and Use of Proceeds 141
Item 15. Controls and Procedures 141
Item 16. [Reserved] 142
16A. Audit Committee Financial Expert 142
16B. Code of Ethics 142
16C. Principal Accountant Fees and Services 142
16D. Exemptions from the Listing Standards for Audit Committees 143
16E. Purchases of Equity Securities by the Issuer and Affiliated Purchasers 143
16F. Change in Registrant’s Certifying Accountant 143
16G. Corporate Governance 143
16H. Mine Safety Disclosure 145
Item 17. Financial Statements 145
Item 18. Financial Statements 145
Item 19. Exhibits 150

 


 

Introduction

Unless otherwise specified, all references in this annual report to:

“we,” “us,” “our” or “CSN” are to Companhia Siderúrgica Nacional and its consolidated subsidiaries;

“Brazilian government” are to the federal government of the Federative Republic of Brazil;

real,” “reais” or “R$” are to Brazilian reais, the official currency of Brazil;

“U.S. dollars,” “$,” “U.S.$” or “USD” are to United States dollars;

“billions” are to thousands of millions, “km” are to kilometers, “m” are to meters, “mt” or “tons” are to metric tons, “mtpy” are to metric tons per year and “MW” are to megawatts;

“TEUs” are to twenty-foot equivalent units;

“consolidated financial statements” are to the consolidated financial statements of Companhia Siderúrgica Nacional and its consolidated subsidiaries reported in International Financial Reporting Standards as issued by the IASB – IFRS as of December 31, 2011 and 2012 and for the years ended December 31, 2010, 2011 and 2012, together with the corresponding Reports of Independent Registered Public Accounting Firm;

 “ADSs” are to CSN’s American Depositary Shares and “ADRs” are to CSN’s American Depositary Receipts; and

“Brazil” is to the Federative Republic of Brazil.

 


 

table of contents

 

Forward-Looking Statements

This annual report includes forward-looking statements, within the meaning of Section 27A of the U.S. Securities Act of 1933, as amended, or the Securities Act, and Section 21E of the U.S. Securities Exchange Act of 1934, as amended, or the Exchange Act, principally under the captions “Item 3. Key Information,” “Item 4. Information on the Company,” “Item 5. Operating and Financial Review and Prospects” and “Item 11. Quantitative and Qualitative Disclosures About Market Risk.” We have based these forward-looking statements largely on our current expectations and projections about future events, industry and financial trends affecting our business. Many important factors, in addition to those discussed elsewhere in this annual report, could cause our actual results to differ substantially from those anticipated in our forward-looking statements, including, among other things:

·            general economic, political and business conditions in Brazil and abroad, especially in China, which is the largest world steel producer;

·            the ongoing effects of the global financial markets and economic slowdown;

·            changes in competitive conditions and in the general level of demand and supply for our products;

·            management’s expectations and estimates concerning our future financial performance and financing plans;

·            our level of debt;

·            availability and price of raw materials;

·            changes in international trade or international trade regulations;

·            protectionist measures imposed by Brazil and other countries;

·            our capital expenditure plans;

·            inflation, interest rate levels and fluctuations in foreign exchange rates;

·            our ability to develop and deliver our products on a timely basis;

·            lack of infrastructure in Brazil;

·            electricity and natural gas shortages and government responses to them;

·            existing and future governmental regulation; and

·            other risk factors as set forth under “Item 3D. Risk Factors.”

The words “believe,” “may,” “will,” “aim,” “estimate,” “forecast,” “plan,” “continue,” “anticipate,” “intend,” “expect” and similar words are intended to identify forward-looking statements. Forward-looking statements speak only as of the date they were made, and we undertake no obligation to publicly update or to revise any forward-looking statements after we distribute this annual report because of new information, future events or other factors. In light of the risks and uncertainties described above, the forward-looking events and circumstances discussed in this annual report might not occur and are not an indication of future performance. As a result of various factors, such as those risks described in “Item 3D. Risk Factors,” undue reliance should not be placed on these forward-looking statements.

2


 

table of contents

 

Presentation of Financial and Other Information

Our consolidated financial statements as of December 31, 2013 and 2012 and for the years ended December 31, 2013, 2012 and 2011 contained in “Item 18. Financial Statements” have been presented in thousands of reais  (R$) and prepared in accordance with International Financial Reporting Standards (IFRS) as issued by the International Accounting Standards Board (IASB). See Note 2(a) to our consolidated financial statements.

Certain figures included in this annual report have been subject to rounding adjustments. Accordingly, figures shown as totals in certain tables may not be an arithmetic aggregation of the figures which precede them.

PART I

Item 1. Identity of Directors, Senior Management and Advisors

Not applicable.

Item 2. Offer Statistics and Expected Timetable

Not applicable.

Item 3. Key Information

3A. Selected Financial Data

We present in this section the summary financial and operating data derived from our audited consolidated financial statements as of and for the year ended December 31, 2013, 2012, 2011, 2010 and 2009.

The consolidated financial statements included in this annual report have been prepared in accordance with IFRS, as issued by the IASB, in reais. However, we have translated some of the real  amounts contained in this annual report into U.S. dollars. The rate used to translate such amounts in respect of the year ended December 31, 2013 was R$2.343 to U.S.$1.00, which was the commercial rate for the purchase of U.S. dollars in effect as of December 31, 2013, as reported by the Central Bank of Brazil, or the Central Bank. The U.S. dollar equivalent information presented in this annual report is provided solely for the convenience of investors and should not be construed as implying that the real  amounts represent, or could have been or could be converted into, U.S. dollars at such rates or at any other rate. See “Exchange Rates” for more detailed information regarding the translation of reais  into U.S. dollars.

Summary and Financial Data

The following tables present summary historical consolidated financial and operating data for us for each of the periods indicated. Solely for the convenience of the reader, real  amounts as of and for the year ended December 31, 2013 have been translated into U.S. dollars at the commercial market rate in effect as of December 31, 2013 as reported by the Central Bank of R$2.343 to U.S.$1.00. The selected financial data below should be read in conjunction with “Item 5. Operating and Financial Review and Prospects.”

 We have applied, beginning January 1, 2013, IFRS 10 - Consolidated Financial Statements, which establishes principles for the presentation and preparation of consolidated financial statements when an entity controls one or more entities, and IFRS 11 - Joint Arrangements, which requires a new valuation of joint arrangements, focusing on the rights and obligations of the arrangement, instead of its legal form. The amendments provide additional transition relief, limiting the requirement to provide adjusted comparative information to only the preceding comparative period. We applied this transition relief as described above with respect to the adoption of IFRS 10 and IFRS 11. The financial statements as of and for the year ended December 31, 2012 and the opening balance sheet  as of January 1, 2012 have been  restated for the effects of the retrospective adoption of these new standards. Our financial statements as of and for the year ended December 31, 2011 remain unchanged and as disclosed previously. The selected financial data for the years ended December 31, 2011, 2010 and 2009 have not been retrospectively adjusted and, as a result, are not comparable with the information as of and for the years ended December 31, 2013 and 2012.

 

3


 

 

 

 

 

Year Ended December 31,

 

 

Income Statement Data:  

 

2013

 

2013

 

2012

2011(2)

2010(2)

2009(2)

 

 

(in million of U.S.$, except per share data)

 

(in million of R$, except per share data)

Net operating revenues

 

7,389

 

17,312

 

15,229

16,520  

14,451

10,978

Cost of products sold

 

(5,302)

 

(12,423)

 

(11,259)

(9,801)

(7,883)

(7,211)

Gross Profit

 

2,087

 

4,889

 

3,970

6,719

6,568

3,768

Operating expenses

 

 

 

 

 

 

 

 

 

Selling 

 

(373)

 

(875)

 

(774)

(604)

(482)

(447)

General and administrative 

 

(207)

 

(486)

 

(468)

(576)

(537)

(480)

Equity in results of affiliated companies

 

67

 

158

 

642

-

-

-

Other expenses

 

(484)

 

(1,134)

 

(2,763)

(501)

(599)

(648)

Other income

 

242

 

567

 

111

719

49

1,369

         Total  

 

(755)

 

(1,770)

 

(3,252)

(962)

(1,569)

(206)

 

 

 

 

 

 

 

 

 

 

Operating income  

 

1,332

 

3,120

 

719

5,757

4,998

3,561

Non-operating income (expenses), net  

 

 

 

 

 

 

 

 

 

Financial income

 

73

 

171

 

391

717

643

  586

Financial expenses

 

(1,145)

 

(2,683)

 

(2,543)

(2,723)

(2,555)

(832) 

 

 

 

 

 

 

 

 

 

 

Income before taxes

 

259

 

608

 

(1,433)

3,751

3,087

3,315

Income tax

 

 

 

 

 

 

 

 

 

Current 

 

(551)

 

(1,291)

 

(322)

(136)

(363)

(577) 

Deferred 

 

519

 

1,217

 

1,275

52

(207)

(123) 

 

 

 

 

 

 

 

 

 

 

Total  

 

228

 

534

 

(481)

3,667

2,516

2,615

 

 

 

 

 

 

 

 

 

 

Net income  

 

228

 

534

 

(481)

3,667

2,516

2,615

 

 

 

 

 

 

 

 

 

 

Net loss attributable to noncontrolling interest

 

11  

 

25

 

(61)

(39)

-

(4)

 

 

 

 

 

 

 

 

 

 

Net income attributable to Companhia Siderúrgica Nacional

 

217

 

509

 

(421)

3,706

2,516

2,619

 

 

 

 

 

 

 

 

 

 

Basic earnings per common share

 

0.14901

 

0.34913

 

-0.28815

2.54191

1.72594

175,478

Diluted earnings per common share

 

0.14901

 

0.34913

 

-0.28815

2.54191

1.72594

175,478

 

 

4


 

table of contents

 

 

As of December 31, 

Balance Sheet Data:  

 

2013

 

2013

 

2012

 

2011(2)

 

2010(2)

2009(2)

 

 

(in million of U.S.$)

 

(in million of R$)

Current assets 

 

7,001

 

16,403

 

19,099

 

21,945

 

15,794

12,835

Investments

 

5,756

 

13,487

 

10,840

 

2,088

 

2,104

322

Property, plant and equipment

 

6,364

 

14,911

 

18,519

 

17,377

 

13,777

11,133

Other assets 

 

2,391

 

5,602

 

4,825

 

5,460

 

6,380

6,436

 

 

 

 

 

 

 

 

 

 

 

 

Total assets  

 

21,512

 

50,403

 

53,283

 

46,870

 

38,055

30,726

 

 

 

 

 

 

 

 

 

 

 

 

Current liabilities 

 

2,375

 

5,564

 

6,551

 

6,497

 

4,456

3,998

Non -current liabilities

 

15,694

 

36,770

 

37,724

 

31,956

 

25,776

20,139

Stockholders’ equity 

 

3,444

 

8,069

 

9,008

 

8,417

 

7,823

6,589

 

 

 

 

 

 

 

 

 

 

 

 

Total liabilities and stockholders’ equity  

 

21,512  

 

50,403

 

53,283

 

46,870

 

38,055

30,726

 

 

 

 

 

 

 

 

 

 

 

 

Paid-in capital (in millions of R$)

 

1,938  

 

4,540

 

4,540

 

1,681

 

1,681

1,681

Common shares (quantities)

 

622

 

1,457

 

1,457

 

1,457

 

1,457

1,457

Dividends declared and interest on stockholders’ equity (in millions of R$)¹

 

341

 

800

 

300

 

1,200

 

1,856

1,819

Dividends declared and interest on stockholders’ equity per common share (in reais)¹ 

 

0.23  

 

0.55

 

0.21

 

0.82

 

1.27

1.25

                       
 

 

(1) 

Amounts consist of dividends declared and accrued interest on shareholders’ equity during the year. For a discussion of our dividend policy and dividend and interest payments made in 2013, see “Item 8A. Consolidated Statements and Other Financial Information-Dividend Policy.”

(2) 

The selected financial data for the years ended December 31, 2011, 2010 and 2009 have not been retrospectively adjusted for the effects of the adoption of IFRS 10 and 11 as permitted by the transition guidance related to these standards. See note 2(y) and 3 to our consolidated financial statements.

 

5


 

 

Exchange Rates

The Brazilian foreign exchange system allows the purchase and sale of foreign currency and the international transfer of reais  by any person or legal entity, regardless of the amount, subject to certain regulatory procedures. The Brazilian real  has experienced frequent and substantial variations in relation to the U.S. dollar and other foreign currencies during the recent decades.

Between 2000 and 2008, the real  fluctuated significantly against the U.S. dollar, reaching a peak of R$3.53 per U.S.$1.00 at the end of 2002 and a low of R$1.56 per U.S.$1.00 in August 2008. In the context of the crisis in the global financial markets after mid-2008, the real depreciated 31.9% against the U.S. dollar throughout 2008, reaching R$2.337 per U.S.$1.00 on December 31, 2008. From 2009 to 2011, the real appreciated 19.7% against the U.S. dollar and reached R$1.876 per U.S.$1.00 at year end 2011. In 2012, the real depreciated 17.6% and on December 31, 2012 the exchange rate was R$2.04 per U.S.$1.00. In 2013, the real depreciated 15% and on December 31, 2013 the exchange rate was R$2.343 per U.S.$1.00. On April 29, 2014 the exchange rate was R$2.220 per U.S.$1.00. The Central Bank has intervened occasionally to mitigate volatility in foreign exchange rates. We cannot predict whether the Central Bank or the Brazilian government will continue to allow the real  to float freely or will intervene in the exchange rate market through a currency band system or otherwise. The real  may depreciate or appreciate against the U.S. dollar substantially.

The following tables present the selling rate, expressed in reais  per U.S. dollar (R$/U.S.$), for the periods indicated:

 Year ended  

 

Low  

 

High  

 

Average (1)

 

Period-end  

December 31, 2009

 

1.702

 

2.422

 

1.994

 

1.741

December 31, 2010

 

1.655

 

1.881

 

1.759

 

1.666

December 31, 2011

 

1.535

 

1.902

 

1.675

 

1.876

December 31, 2012

 

1.702

 

2.112

 

1.955

 

2.044

December 31, 2013

 

1.953

 

2.446

 

2.161

 

2.343

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Month ended  

 

Low  

 

High  

 

Average  

 

Period-end  

October 2013

 

2.161

 

2.213

 

2.189

 

2.203

November 2013

 

2.243

 

2.336

 

2.295

 

2.325

December 2013

 

2.310

 

2.382

 

2.346

 

2.343

January 2014

 

2.334

 

2.440

 

2.382

 

2.426

February 2014

 

2.333

 

2.424

 

2.384

 

2.333

March 2014

 

2.260

 

2.365

 

2.326

 

2.263

April 2014 (through April 29, 2014)

 

2.197

 

2.281

 

2.233

 

2.220

 

Source: Central Bank.

 

(1) 

Represents the daily average of the close exchange rates during the period.

                   

 

We will pay any cash dividends and make any other cash distributions with respect to our common shares in Brazilian currency. Accordingly, exchange rate fluctuations may affect the U.S. dollar amounts received by ADS holders on conversion into U.S. dollars of such distributions for payment by the depositary. Fluctuations in the exchange rate between the real  and the U.S. dollar may also affect the U.S. dollar equivalent of the real  price of our common shares on BM&FBOVESPA.

3B. Capitalization and Indebtedness

Not applicable.

3C. Reasons for the Offer and Use of Proceeds

Not applicable.

6


 

3D. Risk Factors

An investment in our ADSs or common shares involves a high degree of risk. You should carefully consider the risks described below before making an investment decision. Our business, financial condition and results of operations could be materially and adversely affected by any of these risks. The trading price of our ADSs could decline due to any of these risks or other factors, and you may lose all or part of your investment. The risks described below are those that we currently believe may materially affect us.

Risks Relating to Brazil

The Brazilian government exercises significant influence over the Brazilian economy. This influence, as well as Brazilian political and economic conditions, could materially and adversely affect us.

The Brazilian government frequently intervenes in the Brazilian economy and occasionally makes significant changes in policy and regulation. See “—Government efforts to combat inflation may hinder the growth of the Brazilian economy and could harm our business” and “Item 5A. Operating Results—Brazilian Macro-Economic Scenario, Effects of Exchange Rate Fluctuations.” The Brazilian government’s actions, policies and regulations have involved, among other measures, increases in interest rates, changes in tax policies, price controls, currency devaluations, capital controls and limits on imports. Our business, financial condition and results of operations may be adversely affected by political, social, and economic developments in or affecting Brazil, and by changes in policy or regulations at the federal, state or municipal levels involving or affecting factors such as:

·       interest rates;

·       exchange controls;

·       currency fluctuations;

·       inflation; 

·       price volatility of raw materials and our final products;

·       lack of infrastructure in Brazil;

·       energy shortages and rationing programs;

·       liquidity of the domestic capital and lending markets;

·       regulatory policy for the mining and steel industries;

·       environmental policies and regulations;

·       tax policies and regulations, including frequent changes in tax regulations that may result in uncertainties as to future taxation; and

·       other political, social and economic developments in or affecting Brazil.

Recent economic and political instability may lead to legislative or regulatory changes that could negatively affect us. In addition, such changes may also lead to further economic uncertainty and to heightened volatility and negative perception of the Brazilian securities markets which may adversely affect us and the trading price of our common shares.

Political crisis in Brazil in the past have affected the development of the Brazilian economy and the trust of foreign investors, as well as the public in general. Recent popular unrest in Brazil has led to large demonstrations in mid-2013, which serves as an example of the population’s growing dissatisfaction with corruption and certain political measures.

 

Exchange rate instability may adversely affect us and the market price of our common shares and ADSs.

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The Brazilian currency has long experienced frequent and substantial variations in relation to the U.S. dollar and other foreign currencies. For example, the real  appreciated 11.8%, 8.7% and 17.2% against the U.S. dollar in 2005, 2006 and 2007, respectively. In 2008, as a result of the worsening global economic crisis, the real  depreciated 32% against the U.S. dollar, closing at R$2.337 to U.S.$1.00 on December 31, 2008. For the years ended December 31, 2009 and 2010, the real  appreciated 25.5% and 4.2%, respectively, against the U.S. dollar, closing at R$1.741 and R$1.666 to U.S.$1.00 on December 31, 2009 and 2010, respectively. For the years ended December 31, 2011, 2012 and 2013 the real  depreciated 12.6%, 8.9% and 14.6%, respectively, against the U.S. dollar, closing at R$1.876,  R$2.044 and R$2.343 to U.S.$1.00, respectively. On April 29, 2014 the exchange rate was R$2.220 per U.S.$1.00.

Depreciation of the real  against major foreign currencies could create inflationary pressures in Brazil and contribute to Central Bank increases in interest rates, which could negatively affect us and the growth of the Brazilian economy, may curtail access to foreign financial markets and may prompt government intervention, which could include recessionary measures. Depreciation of the real  can also, as in the context of an economic slowdown, lead to decreased consumer spending, deflationary pressures and reduced growth of the economy as a whole.

On the other hand, appreciation of the real  relative to major foreign currencies could lead to a deterioration of Brazilian foreign exchange current accounts, as well as affect export-driven growth. Depending on the circumstances, either depreciation or appreciation of the real  could materially and adversely affect the growth of the Brazilian economy and us as well as impact the U.S. dollar value of distributions and dividends on, and the U.S. dollar equivalent of the market price of, our common shares and our ADSs.

In the event the real  depreciates in relation to the U.S. dollar, the cost in reais  of our foreign currency-denominated borrowings and imports of raw materials, particularly coal and coke, will increase. On the other hand, if the real appreciates in relation to the U.S. dollar, it will cause real-denominated production costs to increase as a percentage of total production costs and cause our exports to be less competitive. We had total U.S. dollar-denominated or -linked indebtedness of R$10,875 million, or 39.03% of our total indebtedness, as of December 31, 2013.

Government efforts to combat inflation may hinder the growth of the Brazilian economy and could harm us.

Brazil has in the past experienced extremely high rates of inflation, which has led the government to pursue monetary policies that have contributed to one of the highest real interest rates in the world. Since the implementation of the Real  Plan in 1994, the annual rate of inflation in Brazil has decreased significantly, as measured by the National Broad Consumer Price Index (Índice Nacional de Preços ao Consumidor Amplo, or IPCA). Inflation measured by the IPCA index was 6.5%, 5.8% and 5.9% in 2011, 2012 and 2013, respectively. Inflation and the Brazilian government’s inflation containment measures, mainly through monetary policies, have had and may have significant effects on the Brazilian economy and our business. Tight monetary policies with high interest rates may restrict Brazil’s growth and the availability of credit. Conversely, more lenient policies and interest rate decreases may trigger increases in inflation, with the consequent reaction of sudden and significant interest rate increases, which could negatively affect Brazilian economic growth and us. In addition, we may not be able to adjust the price of our products in the foreign markets to offset the effects of inflation in Brazil on our cost structure, given that most of our costs are incurred in reais

Developments and perception of risk in other countries, especially other emerging market countries, may adversely affect the trading price of Brazilian securities, including our common shares and ADSs.

The market value of securities of Brazilian companies is affected to varying degrees by economic and market conditions in other countries, especially other emerging market countries. Although economic conditions in these countries may differ significantly from economic conditions in Brazil, investors’ reactions to developments in these other countries may have an adverse effect on the market value of securities of Brazilian issuers. Crisis in, or economic policies of, other countries may diminish investors' interest in securities of Brazilian issuers, including ours. This could adversely affect the trading price of our common shares and/or ADSs, and could also make it more difficult or impossible for us to access the capital markets and finance our operations on acceptable terms.

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Risks Relating to Us and the Industries in Which We Operate

We are exposed to substantial changes in the demand for steel and iron ore, which has a substantial impact in the prices of our products and may adversely affect our results of operations.

The steel and mining industries are highly cyclical, both in Brazil and abroad. The demand for steel and mining products and, thus, the financial condition and results of operations of companies in the steel and mining industries, including us, are generally affected by macroeconomic fluctuations in the world economy and the economies of steel-producing countries, including trends in the automotive, construction, home appliances and packaging industries, as well as other industries which rely on steel distributors. A worldwide recession, an extended period of below-trend growth in developed countries or a slowdown in the emerging markets that are large consumers of our products (such as the domestic Brazilian market for our steel products and the Chinese market for iron ore) could sharply reduce demand for our products. Reduced demand can lead to overcapacity and excessive downtime, lower utilization of our significant fixed assets and therefore reduced operating profitability. In addition, flat steel competes with other materials that may be used as substitutes, such as aluminum (particularly in the automobile industry), cement, composites, glass, plastic and wood. Government regulatory initiatives mandating the use of such materials in lieu of steel, whether for environmental or other reasons, as well as the development of other new substitutes for steel products, could also significantly reduce market prices and demand for steel products and thereby reduce our cash flow and profitability. Any material decrease in demand for steel and iron ore in the domestic or export markets served by us could have a material adverse effect on us.

The availability and the price of raw materials that we need to produce steel, particularly coal and coke, may adversely affect our results of operations.

In 2013, raw material costs accounted for 53.2% of our total steel production costs. Our main raw materials include iron ore, coal, coke, limestone, dolomite, manganese, zinc, tin and aluminum. We depend on third parties for some of our raw material requirements, including importing all of the coal required to produce coke and approximately 56.8 % of our coke requirements. In addition, we require significant amounts of energy, in the form of natural gas and electricity, to power our plants and equipment.

Any prolonged interruption in the supply of raw materials, natural gas or electricity, or substantial increases in their prices, could materially and adversely affect us. These interruptions and price increases may be a result of changes in laws or trade regulations, the availability and cost of transportation, suppliers’ allocations to other purchasers, interruptions in production by suppliers or accidents or similar events on suppliers’ premises or along the supply chain. Our inability to pass those cost increases on to our customers or to meet our customers’ demands because of non-availability of key raw materials could also have a material and adverse effect on us.

Our steel products face significant competition, including price competition, from other domestic or foreign producers, which may adversely affect our profitability and market share.

The global steel industry is highly competitive with respect to price, product quality and customer service, as well as technological advances that enable steel companies to reduce their production costs. Brazil’s export of steel products is influenced by several factors, including the protectionist policies of other countries, disputes regarding these policies before the WTO (World Trade Organization), the Brazilian government’s exchange rate policy and the growth rate of the world economy. Further, continuous advances in materials sciences and resulting technologies have given rise to improvements in products such as plastics, aluminum, ceramics and glass that permit them to substitute steel. Due to high start-up costs, the economics of operating a steelworks facility on a continuous basis may encourage mill operators to maintain high levels of output, even in times of low demand, which increases the pressure on industry profit margins. In addition, downward pressure on steel prices by our competitors may affect our profitability.

The steel industry has historically suffered from structural over-capacity which has recently worsened due to a substantial increase in production capacity in the developing world and particularly in China and India as well as other emerging markets. China is now, by far, the largest global steel producer and, in addition, Chinese and certain steel exporting countries have favorable conditions (excess steel capacity, undervalued currency or higher market prices for steel in markets outside of such countries), which can have a significant impact on steel prices in other markets. If we are not able to remain competitive in relation to China or other steel-producing countries, our results may be adversely affected in the future.

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Since 2010, steel companies in Brazil have faced strong competition from imported products, mainly as a result of the reduction in demand for steel products in mature markets, the exchange rate appreciation and tax incentives. The Brazilian government adopted measures to contain imported products and, as a result, prices of imported products stabilized as compared to local products. These measures had a positive effect in 2011 and subsequent years, when imports were consistently reduced. If the Brazilian Government fails to act against cheaper subsidized steel imports and there is an increase in imports, our results of operations may be materially and adversely affected. Apart from direct steel imports, the Brazilian industry has also been facing competition from imported finished goods, which affects the whole steel chain.

Adverse economic developments in China could have a negative impact on our revenues, cash flow and profitability.

China has been the main driver of global demand for minerals and metals over the last few years, effectively driving global prices for iron ore and steel. In 2013, China accounted for 68% of the global seaborne iron ore trade. The percentage of our iron ore sales volume to consumers in China was 52% in 2013. A contraction of China’s economic growth could result in lower global demand for iron ore and steel and increase the global steel industry over-capacity, leading to lower revenues, cash flow and profitability. Poor performance in the Chinese real estate sector and low investments in infrastructure, two of the largest consumers of carbon steel in China, could also negatively impact our results.

Protectionist and other measures adopted by foreign governments could adversely affect our export sales.  

In response to the increased production and export of steel by many countries, anti-dumping and countervailing duties and safeguard measures were imposed in the late 1990s and early 2000s by foreign governments representing the main markets for our exports. In 2011, both the anti-dumping duties imposed by Argentina and the anti-dumping and countervailing duties imposed by the United States were terminated. Restrictions imposed by Canada on imports of hot-rolled products from Brazil remain in effect. In addition, technical or safety measures, such as those imposed by the European Union on imports of certain chemical substances contained either in products used to protect and/or pack steel products, may be adopted and as a result create barriers to steel exports. The imposition of these and other protectionist measures by foreign countries may materially and adversely affect our export sales.

Our activities depend on authorizations, concessions, permits and licenses. Changes of laws and regulations and government measures could adversely affect us.

Our activities are subject to governmental authorizations, concessions, licenses or permits, which include environmental licenses for our infrastructure projects and concessions, such as for our railways. Although we believe that such authorizations, concession, licenses and permits will be granted and/or renewed as and when requested, we cannot guarantee that we will be able to maintain, renew or obtain any required authorization, concession, license or permit, as well as that no additional requirement will be imposed in connection with such request. Authorizations, concessions, licenses or permits required for the development of our activities may require that we meet certain performance thresholds or completion milestones. In case we are unable to meet these thresholds or milestones, we may lose or not be able to obtain or renew such authorizations, concessions, licenses or permits. We also cannot guarantee that our controlled entities that hold concessions will timely comply with its obligations under any relevant Concession Agreement or in Terms of Undertaking (Termos de Ajustamento de Conduta), or TACs, entered into with governmental regulatory agencies. Any of these events may result in the loss or early termination of concessions. The loss or inability to obtain and/or renew any authorization, concession, permit or license, or changes in the regulatory framework that we operate in, may materially and adversely affect us.

In addition, if laws and regulations applicable to these authorizations, concessions, permits or licenses change, modifications to our technologies and operations could be required, and we may need to make unexpected capital expenditures. These changes and additional costs may have a negative impact on the profitability of our projects or even make certain projects economically or otherwise unfeasible.

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Our activities are also subject to governmental regulation in the form of taxes, charges and royalties, which can have an important financial impact on our operations. The Brazilian Congress is currently reviewing a bill that proposes significant changes to the Mineral Code, including a potential increase of the royalties (CFEM) charged for our mining activities. See “Item 4B. Business Overview–Government Regulation and Other Legal Matters–Brazil – mining regulation –Mineral Rights and Ownership.”

We have a level of indebtedness which could make it more difficult or expensive to refinance our maturing debt and /or incur new debt.

As of December 31, 2013, our total debt outstanding amounted to R$27,864 million, consisting of R$2,674 million of short-term debt and R$25,190 million of long-term debt. See “Item 5B. Liquidity and Capital Resources” and “Item 18. Financial Statements.” Although we had R$9,996 million of cash and cash equivalents as of December 31, 2013, our planned investments in all of our business segments will require a significant amount of cash over the course of 2014 and following years. See “Item 4D. Property, Plant and Equipment – Capital Expenditures – Planned Investments.”

The level of our indebtedness could affect our credit rating and ability to obtain any necessary financing in the future and increase our cost of borrowing. In addition, our level of indebtedness could make us more vulnerable in the event of a downturn in our business. In these and other circumstances, servicing our indebtedness may use a substantial portion of our cash flow from operations, which could adversely affect our financial condition and results of operations and make it more difficult for us to make payments of dividends and other distributions to our shareholders, including the holders of our ADSs.

Malfunctioning equipment or accidents on our premises, railways or ports may decrease or interrupt production, internal logistics or distribution of our products.

The steel and iron ore production processes depend on certain critical equipment, such as blast furnaces, steel converters, continuous casting machines, drillers, reclaimers, conveyor belts, crushing and screening equipment and shiploaders, as well as on internal logistics and distribution channels, such as railways and seaports. This equipment and infrastructure may be affected in the case of malfunction or damage. In 2006, there was an accident involving the gas cleaning system adjacent to Blast Furnace No. 3 at the Presidente Vargas Steelworks, which prevented us from operating this blast furnace for approximately six months. Similar or any other significant interruptions in our production process, internal logistics or distribution channels (including our ports and railways) could materially and adversely affect us.

Our insurance policies may not be sufficient to cover all our losses

We maintain several types of insurance policies, in line with the risk management of our businesses, which attempt to follow industry market practices for similar activities. Coverage in such policies encompasses domestic and international (import and export) cargo transportation (road, rail, sea or air), carrier liability, life insurance, personal accidents, health, auto insurance, D&O, general liability, erection risks, boiler and machinery coverage, trade credit insurance, surety ports and terminal liabilities. We also have an operational risks policy for the Presidente Vargas Steelworks and some of our branches and subsidiaries for a total insured value of U.S.$500 million out of a total risk amount of U.S.$15.4 billion. Under the terms of this policy we remain responsible for the first U.S.$300 million in losses (material damages and loss of profits). The coverage obtained in these insurance policies may not be sufficient to cover all risks we are exposed to. Additionally, we may not be able to successfully contract or renew our insurance policies in terms satisfactory to us. The occurrence of one or more of these events may adversely affect our financial position.

Our projects are subject to risks that may result in increased costs or delay or prevent their successful implementation.

We are investing to further increase our steel, mining and cement production capacity, as well as our logistics capabilities. See “Item 4D. Property, Plant and Equipment—Capital Expenditures—Planned Investments.” These projects are subject to a number of risks that may adversely affect our growth prospects and profitability, including the following:

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·         we may encounter delays, availability problems or higher than expected costs in obtaining the necessary equipment, services and materials to build and operate a project;

·         our efforts to develop projects according to schedule may be hampered by a lack of infrastructure, including availability of overburden and waste disposal areas as well as reliable power and water supplies;

·         we may fail to obtain, lose, or experience delays or higher than expected costs in obtaining or renewing the required permits, authorizations, licenses, concessions and/or regulatory approvals to build or continue a project; and

·         changes in market conditions, laws or regulations may make a project less profitable than expected or economically or otherwise unfeasible.

Any one or a combination of the factors described above may materially and adversely affect us.

Current, new or more stringent environmental, safety and health regulations imposed on us may result in increased liabilities and increased capital expenditures.

Our steel making, mining, cement, energy and logistics facilities are subject to a broad range of laws, regulations and permit requirements in Brazil relating mainly to the protection of health, safety and the environment.

Brazilian pollution standards are expected to continue to change, including the introduction of new effluent and air emission standards, water management and solid waste-handling regulations, restrictions on business expansions, native forest preservation requirements, and the obligation to create privately owned conservation areas, or RPPNs as an environmental compensation for industrial and mining expansion projects. The Brazilian government has adopted a decree under the national policy for climate change (Política Nacional de Mudanças Climáticas) that contemplates a 5% reduction in carbon emissions projected for 2020 for the industrial sector (including steel making and cement sectors) and an action plan for the sector is being developed by a technical committee composed of representatives from the government, industry associations and academia. The target reduction for the mining sector is yet to be established. In addition, the state of Rio de Janeiro, through its State Environmental Agency (Instituto Estadual do Ambiente), or INEA, issued a law that requires steel making and cement facilities to present action plans to reduce greenhouse gas emissions when renewing or applying for operational licenses. The federal government has also established a national policy for solid waste (Política Nacional de Resíduos Sólidos), which provides for more strict guidelines for solid waste management and industry targets for reverse logistics as part of the environmental licensing process. Finally, a new regulatory framework for mining operations is currently being developed by the Department of Geology, Mining and Mineral Processing from the Ministry of Mines and Energy, which may impose stricter regulations on our mining operations, including requests for environmental recovery of areas and investments for the granting of mining concessions.

New or more stringent environmental, safety and health standards imposed on us could require us to make increased capital expenditures, create additional legal preservation areas in our properties, or make modifications in operating practices or projects. As a result, the amount and timing of future environmental and related expenditures may vary substantially from those currently anticipated. These additional costs may also have a negative impact on the profitability of the projects we intend to implement or may make such projects economically unfeasible. We could also be exposed to civil penalties, criminal sanctions and closure orders for non-compliance with these regulations. Waste disposal and emission practices may result in the need for us to clean up or retrofit our facilities at substantial costs and/or could result in substantial liabilities. Environmental legislation restrictions imposed by foreign markets to which we export our products may also materially and adversely affect our export sales and us.

In addition, we may be requested to enter into TACs with Brazilian regulators and agencies that require us to minimize or eliminate the risk of environmental impacts in the areas where we operate. If we are unable to comply with a TAC in a timely manner, we may be exposed to penalties, such as fines, revocation of permits, or closure of facilities. See “Item 4B. Government Regulation and Other Legal Matters – Environmental Expenditures and Claims and Item 8A – Financial Information – Consolidated Statements and Other Financial Information – Legal Proceedings.”

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Our governance and compliance processes may fail to prevent regulatory penalties and reputational harm.

We operate in a global environment, and our activities straddle multiple jurisdictions and complex regulatory frameworks with increased enforcement activities worldwide. Our governance and compliance processes may not prevent future breaches of law, accounting and/or governance standards. We may be subject to breaches of our Code of Ethics, business conduct protocols and instances of fraudulent behavior and dishonesty by our employees, contractors or other agents. Our failure to comply with applicable laws and other standards could subject us to fines, loss of operating licenses and reputational harm, which may materially and adversely affect us.

Some of our operations depend on joint ventures, consortia and other forms of cooperation, and our business could be adversely affected if our partners fail to observe their commitments.

We currently operate parts of our business through joint-ventures and consortia with other companies. We have, among others, established a joint-venture with an Asian consortium at our 60% joint-controlled investee Nacional Minérios S.A., or Namisa, to mine iron ore; a joint-venture with other Brazilian steel and mining companies at MRS Logística S.A., or MRS, to explore railway transportation in the Southeastern region of Brazil, a joint-venture with certain Brazilian governmental entities at Transnordestina Logística S.A., or TLSA, to explore railway transportation in the Northeastern region of Brazil a joint-venture with Tractebel Energia S.A. and Cia. de Cimento Itambé at Itá Energética S.A., or ITASA, to produce electricity, and a consortium with Vale S.A., Votorantim Metais Zinco S.A., CEMIG Geração e Transmissão S.A. and Anglo Gold Ashant Córrego do Sítio Mineração S.A. at Igarapava Hydroelectric Power Plant to produce electricity.

Our forecasts and plans for these joint-ventures and consortia assume that our partners will observe their obligations to make capital contributions, purchase products and, in some cases, provide managerial personnel or financing. In addition, many of the projects contemplated by our joint-ventures or consortia rely on financing commitments, which contain certain preconditions for each disbursement. If any of our partners fails to observe their commitments or we fail to comply with all preconditions required under our financing commitments or other partnership arrangements, the affected joint-venture, consortium or other project may not be able to operate in accordance with its business plans, or we may have to increase the level of our investment to implement these plans. In addition, certain of our joint-venture agreements also provide for customary dispute and deadlock resolution mechanisms, as well as put and call options exercisable under certain circumstances, which may require us to incur substantial disbursements. Any of these events may have a material adverse effect on us.

Our mineral reserve estimates may materially differ from the mineral quantities that we may be able to actually recover; our estimates of mine life may prove inaccurate; market price fluctuations and changes in operating and capital costs may render certain ore reserves uneconomical to mine; and we may face rising extraction costs or investment requirements over time as our reserves deplete.

Our reported ore reserves are estimated quantities of ore and minerals that we have determined can be economically mined and processed under present and anticipated conditions to extract their mineral content. There are numerous uncertainties inherent in estimating quantities of reserves and in projecting potential future rates of mineral production, including many factors beyond our control. Reserve engineering involves estimating deposits of minerals that cannot be measured in an exact manner, and the accuracy of any reserve estimate is a function of the quality of available data and engineering and geological interpretation and judgment. As a result, no assurance can be given that the indicated amount of ore will be recovered or that it will be recovered at the rates we anticipate. Estimates of different engineers may vary, and results of our mining and production subsequent to the date of an estimate may lead to revision of estimates. Reserve estimates and estimates of mine life may require revision based on actual production experience and other factors. For example, fluctuations in the market prices of minerals and metals, reduced recovery rates or increased operating and capital costs due to inflation, exchange rates or other factors may render proven and probable reserves uneconomic to exploit and may ultimately result in a restatement of reserves.

In addition, reserves are gradually depleted in the ordinary course of our exploration activities. As mining progresses, distances to the primary crusher and to waste deposits becomes longer and pits become steeper. Also, for some types of reserves, mineralization grade decreases and hardness increases at increased depths. As a result, over time we may experience rising unit extraction costs with respect to each mine, or we may need to make additional investments, including adaptation or construction of processing plants and expansion or construction of tailing dams. Our exploration programs may also fail to result in the expansion or replacement of reserves depleted by current production. If we do not enhance existing reserves or develop new operations, we may not be able to sustain our current level of production beyond the remaining lives of our existing mines. See “Item 4B—Business Overview—Our Mining Segment—Mineral Reserves.”

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We may not be able to adjust our mining production volume in a timely or cost-efficient manner in response to changes in demand.

Revenues from our mining business represented in 2011, 2012 and 2013, respectively, 35%, 26% and 27% of our total net revenues. Our ability to rapidly increase production capacity is limited, which could render us unable to fully satisfy demand for our products. When demand exceeds our production capacity, we may meet excess customer demand by purchasing iron ore from unrelated parties and reselling it, which would increase our costs and narrow our operating margins. If we are unable to satisfy excess customer demand in this way, we may lose customers. In addition, operating close to full capacity may expose us to higher costs, including demurrage fees due to capacity restraints in our logistics systems.

Conversely, operating at significant idle capacity during periods of weak demand may expose us to higher unit production costs since a significant portion of our cost structure is fixed in the short-term due to the high capital intensity of mining operations. In addition, efforts to reduce costs during periods of weak demand could be limited by labor regulations or existing labor or government agreements.

Drilling and production risks could adversely affect the mining process.

Once mineral deposits are discovered, it can take a number of years from the initial phases of drilling until production is possible, during which time the economic feasibility of production may change. Substantial time and expenditures are required to:

·       establish mineral reserves through drilling;

·       determine appropriate mining and metallurgical processes for optimizing the recovery of metal contained in ore;

·       obtain environmental and other licenses;

·       construct mining, processing facilities and infrastructure required for greenfield properties; and

·       obtain the ore or extract the minerals from the ore.

If a mining project proves not to be economically feasible by the time we are able to profit from it, we may incur substantial losses and be obliged to take write-offs. In addition, potential changes or complications involving metallurgical and other technological processes arising during the life of a project may result in delays and cost overruns that may render the project not economically feasible.

Natural and other disasters could disrupt our operations

Our business and operating results could be negatively impacted by social, technical and/or physical risks such as flooding, fire, power loss, loss of water supply, leakages, accidents, telecommunications and information technology system failures, as well as political and economic instability, including a global economic slowdown. For example, flooding in Australia at the end of 2010 affected global coal supply and consequently increased our raw material costs. In addition, heavy rainfall in the Southeast Region of Brazil could affect our iron ore and logistics operations and consequently our revenues. Such events could affect our ability to conduct our business operations and, as a result, reduce our operating results and materially and adversely affect us.

We may not be able to consummate proposed acquisitions successfully or integrate acquired businesses successfully.

From time to time, we may evaluate acquisition opportunities that would strategically fit our business objectives. If we are unable to complete acquisitions, or integrate successfully and develop these businesses to realize revenue growth and cost savings, our financial results could be adversely affected. Acquisitions also pose the risk that we may be exposed to successor liability involving an acquired company. Due diligence conducted in connection with an acquisition, and any contractual guarantees or indemnities that we receive, may not be sufficient to protect us from, or compensate us for, actual liabilities. A material liability associated with an acquisition, such as labor or environmental liability, could adversely affect our reputation and financial performance and reduce the benefits of the acquisition.

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In addition, we may incur asset impairment charges related to acquisitions, which may reduce our profitability. Our acquisition activities may also present financial, managerial and operational risks, including diversion of management attention from existing core businesses, difficulties integrating or separating personnel, financial and other systems, failure to achieve the operational benefits that were anticipated at the time of the transaction, adverse effects on existing business relationships with suppliers and customers, inaccurate estimates of fair value made in the accounting for acquisitions and amortization of acquired intangible assets which would reduce future reported earnings, potential loss of customers or key employees of acquired businesses, and indemnities and potential disputes with the buyers or sellers. Finally, proposed acquisitions may also be subject to review from the competition authorities of the countries involved in the transaction, which may approve such transaction, approve such transaction with restrictions, including the divestment of assets, or reject it. Any of these activities or adverse regulatory decisions could negatively affect our reputation, product sales, financial condition and/or results of operations.

We have experienced labor disputes in the past that have disrupted our operations, and such disputes may recur.

A substantial number of our employees and some of the employees of our subcontractors are represented by labor unions and are covered by collective bargaining or other labor agreements, which are subject to periodic renegotiation. Strikes and other labor disruptions at any of our facilities or labor disruptions involving third parties who may provide us with goods or services, have in the past and may in the future materially and adversely affect the operation of our facilities, or the timing of completion and the cost of our projects.

We are exposed to the risk of litigation

We are currently and may in the future be a party to legal proceedings and claims. For some of these legal proceedings and claims, we have not established any provision on our balance sheet or have only established provisions for part of the amounts in question, based on our external counsel’s judgment as to the likelihood of an outcome favorable to us.

Although we are contesting such proceedings and claims, the outcome of each specific proceeding and claim is uncertain and may result in obligations that could materially and adversely affect our business and the value of our shares and ADSs. See “Item 8A. Consolidated Statements and Other Financial Information—Legal Proceedings” for additional information.

Risks Relating to our Common Shares and ADSs

Our controlling shareholder has the ability to direct our business and affairs and its interests could conflict with yours.

Our controlling shareholder has the power to, among other things, elect a majority of our directors and determine the outcome of any action requiring shareholder approval, including transactions with related parties, corporate reorganizations, acquisitions, dispositions, the destination and diversification of our investments, and the timing and payment of any future dividends, subject to minimum dividend payment requirements imposed under Brazilian Corporate Law. Our controlling shareholder may have an interest in pursuing acquisitions, dispositions, financings or similar transactions that could conflict with your interests as a holder of our common shares and ADSs. For a description of our ownership structure, see “Item 7A. Major Shareholders.”

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If you surrender your ADSs and withdraw common shares, you risk losing the ability to remit foreign currency abroad and certain Brazilian tax advantages.

As an ADS holder, you benefit from the electronic certificate of foreign capital registration obtained by the custodian for our common shares underlying the ADSs in Brazil, which permits the custodian to convert dividends and other distributions with respect to the common shares into non-Brazilian currency and remit the proceeds abroad. If you surrender your ADSs and withdraw common shares, you will be entitled to continue to rely on the custodian’s electronic certificate of foreign capital registration for only five business days from the date of withdrawal. Thereafter, upon the disposition of, or distributions relating to, the common shares, you will not be able to remit abroad non-Brazilian currency unless you obtain your own electronic certificate of foreign capital registration or you qualify under Brazilian foreign investment regulations that entitle some foreign investors to buy and sell shares on Brazilian stock exchanges without obtaining separate electronic certificates of foreign capital registration. If you do not qualify under the foreign investment regulations you will generally be subject to less favorable tax treatment of dividends and distributions on, and the proceeds from any sale of, our common shares. For more information regarding exchange controls, see “Item 10.D. Exchange Controls.” If you seek to obtain your own electronic certificate of foreign capital registration, you may incur expenses or suffer delays in the application process, which could delay your ability to receive dividends or distributions relating to our common shares or the return of your capital in a timely manner. The depositary’s electronic certificate of foreign capital registration may also be adversely affected by future legislative changes.

Holders of ADSs may not be able to exercise their voting rights.

Holders of ADSs may only exercise their voting rights with respect to the underlying common shares in accordance with the provisions of the deposit agreement. Under the deposit agreement, ADS holders must vote by giving voting instructions to the depositary. Upon receipt of the voting instructions of the ADS holder, the depositary will vote the underlying common shares in accordance with these instructions. If we ask for voting instructions, the depositary will notify ADS holders of the upcoming vote and will arrange to deliver the proxy card. We cannot assure that ADS holders will receive the proxy card in time to ensure that they can instruct the depositary to vote. In addition, the depositary and its agents are not liable for failing to carry out voting instructions or for the manner of carrying out voting instructions. Alternatively, ADS holders can exercise their right to vote by surrendering their ADSs for cancellation in exchange for our common shares. Pursuant to our bylaws, the first call for a shareholders’ meeting must be published at least 15 days in advance of the meeting, and the second call must be published at least eight days in advance of the meeting. When a shareholders’ meeting is convened, holders of ADSs may not receive sufficient advance notice to surrender their ADSs in exchange for the underlying common shares to allow them to vote with respect to any specific matter. As a result, holders of ADSs may not be able to exercise their voting rights.

The relative volatility and illiquidity of the Brazilian securities markets may substantially limit your ability to sell the common shares underlying the ADSs at the price and time you desire.

Investing in securities that trade in emerging markets, such as Brazil, often involves greater risk than investing in securities of issuers in the United States, and such investments are generally considered to be more speculative in nature. The Brazilian securities market is substantially smaller, less liquid, more concentrated and can be more volatile than major securities markets in the United States. The ten largest companies in terms of market capitalization represented 51.8% of the total market capitalization of the BM&FBOVESPA as of December 31, 2013. The top ten stocks in terms of trading volume accounted for 36.9%, 43.0% and 47.2% of all shares traded on the BM&FBOVESPA in 2013, 2012 and 2011, respectively. Accordingly, although you are entitled to withdraw the common shares underlying the ADSs from the depositary at any time, your ability to sell the common shares underlying the ADSs at a price and time at which you wish to do so may be substantially limited.

Holders of ADSs may be unable to exercise preemptive rights with respect to our common shares.

We may not be able to offer our common shares to U.S. holders of ADSs pursuant to preemptive rights granted to holders of our common shares in connection with any future issuance of our common shares unless a registration statement under the Securities Act is effective with respect to such common shares and preemptive rights, or an exemption from the registration requirements of the Securities Act is available. We are not obligated to file a registration statement relating to preemptive rights with respect to our common shares or to undertake steps that may

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be needed to find exemptions from registration available, and we cannot assure you that we will file any such registration statement or take any such steps. If such a registration statement is not filed and an exemption from registration does not exist, The JP Morgan Chase Bank, N.A., as depositary, may attempt to sell the preemptive rights, and you will be entitled to receive the proceeds of such sale. However, these preemptive rights will expire if the depositary does not sell them, and U.S. holders of ADSs will not realize any value from the granting of such preemptive rights. For a more complete description of preemptive rights with respect to the underlying shares, see “Item 10B. Memorandum and Articles of Association—Preemptive Rights.” 

Item 4. Information on the Company

4A. History and Development of the Company

History

Companhia Siderúrgica Nacional is a Brazilian corporation (sociedade por ações) incorporated in 1941 pursuant to a decree of the Brazilian president at the time, Getúlio Vargas. The Presidente Vargas Steelworks, located in the city of Volta Redonda, in the state of Rio de Janeiro, started the production of coke, pig iron and steel products in 1946. Also in 1946, we incorporated both the Casa de Pedra Mine, located in Congonhas, Minas Gerais, and the Arcos Mine, located in Arcos, Minas Gerais. The Casa de Pedra Mine assures us self-sufficiency in iron ore, whereas the Arcos Mine meets all our needs for flux, limestone and dolomite.

The Company was privatized through a series of auctions held in 1993 and early 1994, through which the Brazilian government sold its 91% ownership interest.

Between 1993 and 2002, we implemented a capital improvement program aimed at increasing our annual production of crude steel, improving the quality of our products and enhancing our environmental protection and cleanup programs. As part of the investments, since February 1996, all our production has been based on the continuous casting process, rather than ingot casting, which involved an alternative method that resulted in higher energy use and metal loss. From 1996 until 2002, we spent the equivalent of U.S.$2.4 billion on the capital improvement program and on maintaining our operational capacity, culminating with the renovation of Blast Furnace No. 3 and Hot Strip Mill No. 2 in 2001. These measures resulted in the increase of our annual production capacity to 5.6 million tons of crude steel and 5.1 million tons of rolled products.

In 2007, CSN started to sell iron ore in the seaborne market. We are now an important exporter of iron ore, drawing from our high quality iron ore reserves in the Casa de Pedra and Namisa mines, located in the state of Minas Gerais. We also own the concession to operate the Terminal de Carvão, or TECAR, the solid bulks terminal, located in Itaguaí Port in the state of Rio de Janeiro, through which we export iron ore and import coal and coke.

In 2009, we entered the cement market with our first grinding mill, next to the Presidente Vargas Steel Mill in Volta Redonda, Rio de Janeiro, taking advantage of the synergies with our steel business.

 

In order to diversify our product portfolio, we entered in the long steel market in 2012, with the acquisition of Stahlwerk Thüringen Gmbh, or SWT, a long steel manufacturer located in Unterwellenborn, Germany.

In addition to the production of flat steel, a new plant for production of long steel products has been installed at Volta Redonda and started assisted operations in December 2013. The plant consists of an electric arc steelmaking furnace, continuous casting for billets and a hot rolling mill for round section long products. We expect this plant to reach 500,000 t/year when fully operational, providing the domestic market with products for civil construction.

General

Our current annual crude steel capacity and rolled product capacity at the Presidente Vargas Steelworks is 5.6 million and 5.1 million tons, respectively. At the Presidente Vargas Steelworks, production of crude steel increased by 2% as compared to 2012, while the production of rolled steel products decreased 2% when compared to 2012. We also operate in the mining, cement, logistics and energy businesses, which have become increasingly important to our operations and growth.

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Steel

Our fully integrated manufacturing facilities at the Presidente Vargas Steelworks produce a broad line of steel products, including slabs, hot- and cold-rolled, galvanized and tin mill products for the distribution, packaging, automotive, home appliance and construction industries.

Our production process is based on the integrated steelworks concept. Below is a brief summary of the steel making process at our Presidente Vargas Steelworks:

  • Iron ore produced from our own mines is processed in continuous sintering machines to produce sinter;
  • Sinter and lump ore direct charges are smelted with lump coke and injected powdered coal in blast furnaces to produce pig iron;
  • Pig iron is then refined into steel via basic oxygen converters;
  • Steel is continuously cast in slabs; and
  • Slabs are then hot rolled, producing hot bands that are coiled and sent to finishing facilities.

We currently obtain all of our iron ore, limestone and dolomite requirements, and a portion of our tin requirements from our own mines. Using imported coal, we produce approximately 56.8% of our coke requirements at current production levels in our own coke batteries at Volta Redonda. Imported coal is also pulverized and used directly in the pig iron production process. Zinc, manganese ore, aluminum and a portion of our tin requirements are purchased in local markets. Our steel production and distribution processes also require water, industrial gases, electricity, rail and road transportation, and port facilities.

On January 31, 2012, in an effort to strengthen our position in the long steel segment, we acquired SWT for €483.4 million. SWT is a long steel producer in Germany with annual production capacity of approximately 1.1 million tons of steel profiles.

In addition to the production of flat steel, a new plant for production of long steel products has been installed at Volta Redonda and started assisted operations in December 2013. The plant consists of an electric arc steelmaking furnace, continuous casting for billets and a hot rolling mill for round section long products. We expect this plant to reach 500,000 t/year when fully operational, providing the domestic market with products for civil construction.

Mining

We own a number of high quality iron ore mines, all located within Brazil’s Iron Ore Quadrangle (Quadrilátero Ferrífero), in the state of Minas Gerais, including the Casa de Pedra mine, located in Congonhas, and we have a jointly-controlled investee, Namisa, which includes the Fernandinho mines, located in Itabirito, Engenho and Congonhas. Our mining assets also include TECAR, Mineração Bocaina, located in Arcos, in the state of Minas Gerais, which produces dolomite and limestone and Estanho de Rondônia S.A., or ERSA, located in Ariquemes, in the state of Rondônia, which mines and casts tin.

Logistics

Our verticalization strategy and intense synergies among our business units are strongly dependent on the logistics created to guarantee the transportation of the inputs at a low operating cost. A number of railways and port terminals make up the logistics system integrating our mining, steelmaking and cement units.

We manage two port terminals at Itaguaí, in Rio de Janeiro, one for bulk solids (TECAR) and one for containers (Sepetiba Tecon).

We also have interests in three railways: we share control in MRS Logística, which operates the former Southeast Network of the Federal Railway Network, along the Rio de Janeiro-São Paulo-Belo Horizonte axis; we also have an interest in jointly-controlled investee Transnordestina Logística S.A., or TLSA; and we control Ferrovia Transnordestina Logística S.A, or FTL, which operates the former Northeastern Railway System, or RFFSA.

Cement

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We entered the cement market in May 2009, driven by the high synergy with our current business. This segment takes advantage of the slag generated by our blast furnaces and of our limestone reserves, located in the city of Arcos, in the state of Minas Gerais. Limestone is used to produce clinker. Clinker and slag are the main inputs in cement production.

We plan to increase our market share in the cement segment in Brazil in order to diversify our product mix and markets, reducing risks and adding value for our shareholders.

Energy

We are one of Brazil’s largest industrial electric power consumers. Since 1999, we have invested in power generation projects in order to ensure self-sufficiency. Our electrical assets include: (i) CSN’s 29.5% stake in the Itá Hydroelectric Power Plant, in Santa Catarina, corresponding to 167 MW, through a 48.75% equity interest in ITASA; (ii) CSN’s 17.9% interest in the 210-MW Igarapava Hydroelectric Power Plant in Minas Gerais, corresponding to 23 MW; and (iii) a 235.2 MW cogeneration thermoelectric power plant in Presidente Vargas Steelworks, which is fueled by the waste gases from the steel production process. These three plants give CSN an average generation capacity of 425 MW, supplying the group’s total need for power.  

Other Information

CSN’s legal and commercial name is Companhia Siderúrgica Nacional. CSN is organized for an unlimited period of time under the laws of the Federative Republic of Brazil. Our head offices are located at Av. Brigadeiro Faria Lima, 3400, 19th and 20th floors and 15th floor - part, Itaim Bibi, São Paulo, Brazil, CEP 04538-132, and our telephone number is +55-11-3049-7100. CSN’s agent for service of process in the United States is CT Corporation, with offices at 111 Eighth Avenue, New York, New York 10011.

4B. Business Overview

Competitive Strengths

We believe that we have the following competitive strengths:

Integrated business model. We are an almost fully integrated steelmaker. This is due to our captive sources of raw materials, principally iron ore, and our owned infrastructure, such as railways and deep-sea water port facilities. We own a number of high quality iron ore mines, all located within Brazil’s Iron Ore Quadrangle (Quadrilátero Ferrífero), in the State of Minas Gerais, distinguishing us from our main competitors in Brazil which purchase their iron ore from mining companies such as Vale S.A., or Vale. In addition to our iron ore reserves, we have captive dolomite and limestone mines that supply our Presidente Vargas Steelworks. See “—Our mining segment” and “Item 4D—Property Plant and Equipment.”

Profitable mining business. We have in recent years invested significantly in our mining business, placing CSN in a prominent position among the country’s leading mining firms. In a first expansion phase, we plan to increase Casa de Pedra’s production capacity to 40 million tons per year, and we expanded the iron ore shipment capacity of TECAR, our cargo terminal in Port of Itaguaí, to 45 million tons in 2013.

The Company has high-quality iron ore reserves in the Casa de Pedra and Namisa mines (Engenho and Fernandinho), all located in Minas Gerais. Our mining activities provide strong revenue generation. We sold 17.5 million tons in 2009, 18.6 million tons in 2010, 23.8 million tons in 2011, 20.2 million tons in 2012 and 21.5 million tons in 2013 (taking into account our proportional interest in Namisa throughout this period). The company’s mining assets also include TECAR with a capacity for 45 mtpy, located in Itaguaí Port (RJ), Mineração Bocaina, located in Arcos (MG), which produces dolomite and limestone and ERSA, which mines and casts tin.

Thoroughly developed transport infrastructure. We have a thoroughly developed transport infrastructure, connecting our iron ore mine to our steel mill and to our ports. The Presidente Vargas Steelworks facility is located next to railway and port systems, facilitating the supply of raw materials, the shipment of our production and easy access to our principal clients. Our steelworks are close to the main steel consumer centers in Brazil, with easy access to port facilities and railway. The concession for the main railway we use and operate is owned by MRS, a

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company in which we hold a 33.27% ownership interest. The railway connects our Casa de Pedra mine to the Presidente Vargas Steelworks and to our terminals at Itaguaí Port, which handles our iron exports and most of our steel exports. Since we obtained the concession to operate MRS railway, in 1996, we have significantly improved its tracks and developed its business, with increased cash generation. We also own concessions to operate two deep-sea water terminals through which we export our products, and import coal and small amounts of coke, the only important raw materials that we need to purchase from third parties.

Self-sufficiency in energy generation. We are self-sufficient in energy, through our interests in the hydroelectric plants of Itá and Igarapava, as well as our own thermoelectric plant inside the Presidente Vargas Steelworks. We also sell the excess energy we generate in the energy market. Our 235.2 MW thermoelectric cogeneration plant provides the Presidente Vargas Steelworks with approximately 60% of its energy needs for its steel mills, using as its primary fuel the waste gases generated by our coke ovens, blast furnaces and steel processing facilities. We hold a 29.5% stake in the Itá Hydroelectric Power Plant, in Santa Catarina. This ownership grants us an assured energy of 167 MW, proportional to our interests in the project, pursuant to 30-year power purchase agreements at a fixed price per megawatt hour, adjusted annually for inflation. In addition, we own 17.9% of the Igarapava hydroelectric plant, with 210 MW fully installed capacity. We have been using part of our 23 MW of assured energy from Igarapava to supply energy to the Casa de Pedra and Arcos mines.

Low cost structure. As a result of our fully integrated business model, our thoroughly developed transportation infrastructure and our self-sufficiency in energy generation, we have been consistently generating high margins. Other factors that lead to these margins are the strategic location of our steelworks facility, the use of state of the art technology and our well qualified work force.

Diverse product portfolio and product mix. We have a diversified flat steel product mix that includes hot-rolled, cold-rolled, galvanized and steel tin mill products, in order to meet a wide range of customer needs across all steel consuming industries. We focus on selling high-margin products, such as tin-coated, pre-painted, galvalume and galvanized products. Our galvanized products provide material for exposed auto parts, using hot-dip galvanized steel and laser-welded blanks. Our CSN Paraná branch provides us with additional capacity to produce high-quality galvanized, galvalume and pre-painted steel products for the construction and home appliance industries. In addition, our distribution subsidiary, Prada, provides a strong sales channel in the domestic market, enabling us to meet demand from smaller customers, thus creating an important presence in this market.

Strong presence in domestic market and strategic international exposure for steel products. We have a strong presence in the domestic market for steel products, representing 76% of our steel sales in the domestic market. In addition, we use our subsidiaries CSN LLC and Lusosider also as sales channels for our flat steel products in the United States and in Europe, with approximately 9% of our total sales in 2013. Direct exports accounted for 3% of our total sales in 2013. In 2012 we acquired SWT, a long steel producer in Germany with annual production capacity of approximately 1.1 million tons of steel profiles, strengthening our steel products mix and geographical diversification. In 2013, SWT accounted for 12% of our total sales.

Strategies

Our goal is to increase value for our shareholders by further benefiting from our competitive cost advantages, maintaining our position as one of the world’s lowest-cost steel producers, becoming an important iron ore global player, developing our cement business and optimizing our infrastructure assets (including ports, railways and power generating plants). To achieve this goal we developed specific strategies for each of our business segments, as described below.

Steel

The strategy for our steel business involves:

ü  A focus on the domestic market, in which we have historically recorded higher profit margins and increased competitiveness, by expanding our market share in flat steel and entering in the Brazilian long steel market;

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ü  The constant pursuit of operational excellence, by developing and implementing cost reduction projects (e.g. energy efficiency) and programs (e.g, internal logistic optimization, project development and implementation disciplines);

ü  An emphasis on high margin coated steel products, such as galvanized, pre-painted and tin plate;

ü  Exploring synergies by using our flat steel distribution network and product portfolio to accelerate entrance into the domestic long steel market; and

ü  Increasing market share by expanding our services and distribution network;

ü  Geographical diversification through our flat and long steel facilities abroad.

For information on planned investments relating to our steel activities, see “Item 4D. Property, Plant and Equipment – Capital Expenditures – Planned Investments.”  

Mining

In order to strengthen our position in the iron ore market, we plan to expand our mining assets, Casa de Pedra and Namisa, and search for investment opportunities, primarily in mines in operation or in an advanced stage of development.

In a first expansion phase, we plan to increase Casa de Pedra’s production capacity to 40 million tons per year, and we expanded the iron ore shipment capacity of TECAR, our cargo terminal in Port of Itaguaí, to 45 million tons in 2013. In order to maximize the profitability of our product portfolio, we will also focus on pellet and pellet-feed, by using Itabirito’s deposits and investing with strategic partners and clients in pellet capacity.

For information on planned investments relating to our mining activities, see “Item 4D. Property, Plant and Equipment – Capital Expenditures – Planned Investments.”

Logistics

We expect to take advantage of and expand our current logistics capabilities, including our integrated infrastructure operations of railways and ports.

We intend to continue to improve the delivery of our products in the domestic market (mainly steel and cement), with low cost and efficiency by integrating and increasing the use of rail transportation, and by providing more distribution centers.

In addition to investments in TECAR, we will strengthen Sepetiba TECON, our container terminal, in order to accommodate larger ships, increasing its capacity and competitiveness by adding services to strengthen client loyalty.

In terms of railways, the Transnordestina Logística project is being developed to explore a logistic potential through terminals and regional cargo, focusing on iron ore, agricultural commodities, gypsum and fuel. We also plan to invest in increasing our efficiency and capacity in the south of Brazil through our interest in MRS.

On September 20, 2013 we entered into an investment agreement with our partners in TLSA, Valec Engenharia, Construções e Ferrovias S.A. and Fundo de Desenvolvimento do Nordeste – FDNE, two Brazilian federal government entities focused on infrastructure and the development of the northeastern region, to implement the partial spin-off of TLSA. The operation was part of a business reorganization and resulted in the segregation of the assets of the Northeastern railway system into two systems: (i) Railway System I, operated by FTL, comprising the stretches between the cities of São Luís – Mucuripe, Arrojado – Recife, Itabaiana – Cabedelo, Paula Cavalcante – Macau and Propiá – Jorge Lins and (ii) the Railway System II, operated by TLSA, comprising the stretches between Missão Velha – Salgueiro, Salgueiro – Trindade, Trindade – Eliseu Martins, Salgueiro – Porto de Suape and Missão Velha – Porto de Pecém.

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As a result of the partial spin-off and the subsequent entry into effect of the new shareholders’ agreement, control of TLSA is now shared with other shareholders, who have veto rights over certain important corporate decisions. As a result, we ceased to consolidate TLSA and began recognizing it in accordance with the equity accounting method. See “Item 4B. Business—Our Logistics Segment—Railways—Northeastern Railway System.”

Cement

Our cement business strategy involves the utilization of the limestone reserves in our Arcos mine and the slag generated by our blast furnaces in our cement plant in Volta Redonda, inaugurated in 2009, with capacity to produce 2.4 million tons per year. In 2011, we began producing clinker in the Arcos plant with the aim of reducing our production costs. We intend to expand our cement production capacity to 5.4 million tons per year over the next few years. We expect that the additional 3.0 million tons per year capacity will come from a new plant that will be integrated with a grinding unit and clinker furnace in Arcos, where we already operate a clinker furnace, using limestone from our own mine.

For information on planned investments relating to our cement activities, see “Item 4D. Property, Plant and Equipment – Capital Expenditures – Planned Investments.”

Additional Investments

In addition to the currently planned investments and capital expenditures, we continue to consider possible acquisitions, joint ventures and brownfield or greenfield projects to increase or complement our steel, cement and mining production and logistics capabilities, logistics infrastructure and energy generation.

Our Steel Segment

We produce carbon steel, which is the world’s most widely produced type of steel, representing the vast bulk of global consumption. From carbon steel, we sell a variety of products, both domestically and abroad, to manufacturers in several industries.

Flat Steel

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The following chart reflects our flat steel production cycle in general terms.

 

 

 

Our Presidente Vargas Steelworks produces flat steel products — slabs, hot-rolled, cold-rolled, galvanized and tin mill products. For further information on our production process, see “—Product Process.”

Slabs  

Slabs are semi-finished products used for processing hot-rolled, cold-rolled or coated coils and sheet products. We are able to produce continuously cast slabs with a standard thickness of 250 millimeters, widths ranging from 830 to 1,600 millimeters and lengths ranging from 5,250 to 10,500 millimeters. We produce high, medium and low carbon slabs, as well as micro-alloyed, ultra-low-carbon and interstitial free slabs.

Hot-Rolled Products  

Hot-rolled products include heavy and light-gauge hot-rolled coils and sheets. A heavy gauge hot-rolled product, as defined by Brazilian standards, is a flat-rolled steel coil or sheet with a minimum thickness of 5.01 millimeters. We are able to provide coils of heavy gauge hot-rolled sheet having a maximum thickness of 12.70 millimeters used to manufacture automobile parts, pipes, mechanical construction and other products. We produce light gauge hot-rolled coils and sheets with a minimum thickness of 1.20 millimeters, which are used for welded pipe and tubing, automobile parts, gas containers, compressor bodies and light cold-formed shapes, channels and profiles for the construction industry.

Cold-Rolled Products  

Cold-rolled products include cold-rolled coils and sheets. A cold-rolled product, as defined by Brazilian standards, is a flat cold-rolled steel coil or sheet with thickness ranging from 0.30 millimeters to 3.00 millimeters. Compared to hot-rolled products, cold-rolled products have more uniform thickness and better surface quality and are used in applications such as automotive bodies, home appliances and construction. In addition, cold-rolled

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products serve as the base for galvanized and tin mill products. We supply cold-rolled coils in thicknesses of between 0.30 millimeters and 2.99 millimeters.

 

Galvanized Products  

Galvanized products are comprised of flat-rolled steel coated on one or both sides with zinc or a zinc-based alloy applied by either a hot-dip or an electrolytic process. We use the hot-dip process, which is approximately 20% less expensive than the electrolytic process. Galvanizing is one of the most effective and low-cost processes used to protect steel against corrosion caused by exposure to water and the atmosphere. Galvanized products are highly versatile and can be used to manufacture a broad range of products, such as:

·         bodies for automobiles, trucks and buses;

·         manufactured products for the construction industry, such as panels for roofing and siding, dry wall and roofing support frames, doors, windows, fences and light structural components;

·         air ducts and parts for hot air, ventilation and cooling systems;

·         culverts, garbage containers and other receptacles;

·         storage tanks, grain bins and agricultural equipment;

·         panels and sign panels; and

·         pre-painted parts.

Galvanized sheets, both painted and bare, are also frequently used for gutters and downspouts, outdoor and indoor cabinets, all kinds of home appliances and similar applications. We produce galvanized sheets and coils in continuous hot-dip processing lines, with thickness ranging from 0.30 millimeters to 3.00 millimeters. The continuous process results in products with highly adherent and uniform zinc coatings capable of being processed in nearly all kinds of bending and heavy machinery.

In addition to standard galvanized products, we produce Galvanew®, galvanized steel that is subject to a special annealing process following the hot-dip coating process. This annealing process causes iron to diffuse from the base steel into the zinc coating. The resulting iron-zinc alloy coating allows better welding and paint performance. The combination of these qualities makes our Galvanew® product particularly well suited for manufacturing automobile and home appliance parts including high gloss exposed parts.

At CSN Paraná, one of our branches, we produce galvalume, a cold-rolled material coated with a zinc-aluminum alloy. The production process is similar to hot-dip galvanized coating, and galvalume has at least twice the corrosion resistance of standard galvanized steel. Galvalume is primarily used in outdoor construction applications that may be exposed to severe acid corrosion, like marine uses.

The value added from the galvanizing process permits us to price our galvanized products with a higher profit margin. Our management believes that our value-added galvanized products present one of our best opportunities for profitable growth because of the anticipated increase in Brazilian demand for such high margin products.

Through our branch CSN Paraná, we also produce pre-painted flat steel, which is manufactured in a continuous coating line. In this production line, a layer of resin-based paint in a choice of colors is deposited over either cold-rolled or galvanized base materials. Pre-painted material is a higher value-added product used primarily in the construction and home appliance markets.

Tin Mill Products  

Tin mill products consist of flat-rolled low-carbon steel coils or sheets with, as defined by Brazilian standards, a maximum thickness of 0.45 millimeters, coated or uncoated. Coatings of tin or chromium are applied by electrolytic process. Coating costs place tin mill products among the highest priced products that we sell. The added value from

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the coating process permits us to price our tin mill products with a higher profit margin. There are four types of tin mill products, all produced by us in coil and sheet forms:

·         Tin plate - coated on one or both sides with a thin metallic tin layer plus a chromium oxide layer, covered with a protective oil film;

·         Tin free steel - coated on both sides with a very thin metallic chromium layer plus a chromium oxide layer, covered with a protective oil film;

·         Low tin coated steel - coated on both sides with a thin metallic tin layer plus a thicker chromium oxide layer, covered with a protective oil film; and

·         Black plate - uncoated product used as the starting material for the coated tin mill products.

Tin mill products are primarily used to make cans and other containers. With six electrolytic coating lines, we are one of the biggest producers of tin mill products in the world and the sole producer of coated tin mill products in Brazil.

Production Process

The main raw materials used in flat production in an integrated steelworks are iron ores, coals, coke, and fluxes such as limestone and dolomite. The iron ore consumed at the Presidente Vargas Steelworks is extracted, crushed, classified, screened (treatment process) and transported by railway from our Casa de Pedra mine, located in the city of Congonhas, in the State of Minas Gerais, 328 km away from the Presidente Vargas Steelworks. The high quality ores mined and sized at Casa de Pedra, with iron content of approximately 60%, and its low extraction costs are major contributors to our low steel production costs.

We import all the hard coking coals required for coke production and PCI coals for the blast furnace process, due to the lack of hard coking and PCI coals with the appropriate quality in Brazil. The hard coking coals are then charged in coke batteries to produce coke through a distillation process. See “—Raw Materials and Suppliers—Raw Materials and Energy Requirements.” This coal distillation process also produces coke oven gas as a byproduct, which we use as a main source of fuel for our thermoelectric co-generation power plant. After being screened, coke is transported to blast furnaces, where it is used as a combustion source and also as a component to transform iron ore to hot metal. In 2013, we produced approximately 59% of our coke needs and imported the balance, compared to 67 % in 2012.

 At sintering plants, fine-sized iron ore and coke breeze or other fine-sized solid fuels are mixed with fluxes (limestone and dolomite) to produce sinter. The sinter, lump iron ore, iron ore pellets, which are 100% acquired in the domestic market, fluxing materials and coke are then loaded into our two operational blast furnaces for smelting. We operate a pulverized coal injection facility, or PCI, which allows to inject low-cost pulverized coals directly into the blast furnaces, replacing approximately one-third of the total coke demand.

The iron ore and iron ore pellets are reduced to pig iron through successive chemical reactions with carbon monoxide (from the coke and PCI) at the blast furnaces, which operate 24 hours a day. The iron and iron ore pellets are gradually reduced, then melts and flows downward. Impurities are separated from the hot metal to form a liquid slag with the loaded fluxes (limestone and dolomite). From time to time, hot metal (white-hot liquid iron) and slag are drained from the bottom of the furnace. Slag (containing melted impurities) is granulated and used to produce cement.

The hot metal is transported to the steelmaking shop by 350-ton capacity torpedo cars and charged in basic oxygen furnaces together with scrap and fluxes. At the basic oxygen furnaces, oxygen is blown onto the liquid burden to oxidize its remaining impurities and to lower its carbon content, thus producing liquid steel. The molten steel is conveyed from the basic oxygen furnaces to the secondary refining equipment (degasser, ladle furnace and Argon Stirring Station). After adjusting the chemical composition, the molten steel is transferred to the continuous casting machines from which crude steel (i.e., rectangular shaped slabs) is produced. A portion of the slab products can be sold directly in the export market.

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In the hot rolling process, reheated slabs from the continuous casting machines are fed into hot strip mills to reduce the thickness of the slabs from 250 millimeters to a range of between 1.2 and 12.7 millimeters. At the end of the hot strip mill, the long, thin steel strip from each slab is coiled and conveyed to a cooling yard. Some hot-rolled coils are dispatched directly to customers in the as-rolled condition. Others are further processed at the pickling lines, in a hydrochloric bath, to remove surface oxides and improve surface quality. After pickling, the hot-rolled coils selected to produce thinner materials are sent to be rolled at cold strip mills. CSN has three cold strip mills, one of which was revamped in September 2011, adding 150,000 tons per year to CSN’s cold rolling capacity. The better surface characteristics of cold-rolled products enhance their value to customers when compared to hot-rolled products. Additional processing related to cold-rolling may further improve surface quality. Following cold-rolling, coils may be annealed, coated (by a hot dip or electrolytic tinning process) and painted, to enhance medium-and long-term anti-corrosion performance and also to add characteristics that will broaden the range of steel utilization. Coated steel products have higher profit margins than bare steel products. Of our coated steel products, tin mill and galvanized products are our highest margin products.

Steel plant equipment regularly undergo scheduled maintenance shutdowns. Typically the rolling mills and coating lines are maintained on a weekly or monthly basis whereas the blast furnaces and other special equipment are scheduled for routine maintenance on a semi-annual or annual basis.

Our business encompasses operational and commercial activities. Our operations are undertaken by our production sector, which is composed of the following two units:

·         The operational unit - responsible for steel production operations, repair shops, in-plant railway, and process development at our Presidente Vargas Steelworks; and

·         The support unit - responsible for production planning, management of product stockyards, energy and utility facilities and work force safety assistance at the Presidente Vargas Steelworks.

The production sector is also responsible for environment and quality consultancy, new product development, capital investment implementation for steel production and processing, and the supervision of CSN Porto Real’s and CSN Paraná’s operations.

Quality Management Program  

We maintain a Quality Management System that is certified to be in compliance with the International Standardization Organization ISO 9001 standard and the automotive industry’s Technical Specification ISO/TS 16949. Our Quality Management System has maintained certification of compliance to ISO 9000 standards since March 1993, when we were awarded the ISO 9002 certificate of compliance and in April 1996 when we were awarded the ISO 9001 certificate of compliance for the manufacture of our steel products. To attend the requirements of the automotive industry we were awarded certification of compliance to QS 9000 standards in April 1998. In June 2004, we made the transition from the QS 9000 standard and were awarded the automotive industry’s Technical Specification ISO/TS 16949. The most recent renewal to the ISO 9001:2008 version, awarded in August 2011, is for the design and manufacture of slabs, hot rolled flats, pickled and oiled steel products, cold rolled, galvanized steel products and tin mill products. In September 2011, we were awarded the ISO/TS 16949:2009, third edition, for the manufacture of hot-rolled, pickled and oiled, cold-rolled and galvanized steel products. Our intention is to renew these certificates of compliance by August 2014 and include in the scope of the ISO 9001 certificate of compliance the manufacture of rebar, bars and rods that will be produced by our new long products plant.

 

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Production Output  

The following table sets forth, for the periods indicated, the annual production of crude steel within Brazil and by us and the percentage of Brazilian production attributable to us:

Crude Steel Production  

 

Brazil  

 

CSN  

 

CSN % of Brazil  

 

 

(In millions of tons)

 

 

2013

 

34,2

 

4,5

 

13,2%

2012

 

34.7

 

4.8

 

13.8%

2011

 

35.2

 

4.9

 

13.9%

2010

 

32.8

 

4.9

 

14.9%

2009 

 

26.5 

 

4.4 

 

16.6% 

_______________

Source: Brazilian Steel Institute (Instituto Aço Brasil), or IABr.

The following table contains some of our operating statistics for the periods indicated:

Certain Operating Statistics  

 

 

 

 

 

 

 

2013

2012

2011  

 

 

(In millions of tons)

(In millions of tons)

 (In millions of tons)

Production of:

 

 

 

 

Iron Ore *

 

15.4

19.8

20.1

Molten Steel 

 

4.6

5.0

5.0

Crude Steel 

 

4.5

4.9

4.9

Hot-Rolled Coils and Sheets 

 

5.0

4.8

4.8

Cold-Rolled Coils and Sheets 

 

2.7

2.6

2.4

Galvanized Products 

 

1.5

1.2

1.4

Tin Mill Products 

 

0.7

0.5

0.7

Consumption of Coal for Coke Batteries 

 

1.5

1.9

2.1

Consumption of Coal for PCI 

 

0.6

0.7

0.6

*Casa de Pedra

 

 

 

 

 

Raw Materials and Suppliers  

The main raw materials we use in our integrated steel mill include iron ore, coke, coal (from which we make coke), limestone, dolomite, aluminum, tin and zinc. In addition, our production operations consume water, gases, electricity and ancillary materials.

Raw Materials and Energy Requirements

In the first half of 2011, prices of the main raw materials used by CSN continuously increased due to unbalanced supply and demand. In the second half of 2011, prices decreased, mainly due to the worsening of the European crisis.

In the first nine months of 2012, prices of the main raw materials used by CSN continued to fall due to the global crisis in the steel market caused mainly by the decline in China’s growth rates and the European crisis. In the fourth quarter of 2012, prices increased, mainly due to the restocking of Chinese mills in preparation for the winter and Chinese holidays.

In 2013, coal and coke prices continued decreasing until the third quarter, when the prices remained flat.

These commodity segments are highly concentrated in the hands of a few global players and there can be no assurance that price increases will not be imposed on steel producers in the future.

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Iron Ore

We are able to obtain all of our iron ore requirements from our Casa de Pedra mine located in the State of Minas Gerais. For a description of our iron ore segment see “– Our Mining Segment.”

 

Coal

In 2013, our metallurgical coal consumption totaled 2.1 million tons. Metallurgical coal includes coking coal and PCI coal, which is a lower grade coal injected into the blast furnaces, in a pulverized form, to reduce coke consumption. The PCI system reduces CSN’s need for imported coke, thus reducing production costs. The total PCI coal consumption in 2013 totaled 0.6 million tons, all imported. The sources of the hard coking coal consumed in our plants in 2013 were as follows: USA (53.2%), Australia (41.7%) and Canada (5.1%) and for PCI: Russia (69.2%), Australia (25.9%). It is important to mention that Russian’s participation increased when compared to 2012 due to the better cost benefit offered by its coal, which ended up reducing the average PCI price purchased during 2013.

During 2013, CSN’s coking coal and PCI coal costs decreased when compared to 2012. The quarterly benchmark price for metallurgical coal began its drop and ended the year at its lowest price (U.S.$143.00) since 2010. The deals for the first quarter of 2014 are U.S.$9.00/mt lower than for the fourth quarter of 2013. The previous lowest settlement amout had been for the fiscal year 2009-10, when it was priced at U.S.$129.00/mt.

Coke

In 2013, in addition to the approximately 1.1 million tons of coke we produced, we also consumed 700,830 tons of coke bought from third parties in China, Colombia and Brazil, an increase of 3.6% as compared to our consumption in 2012, due to a revamp in our coke plants, which will last through the next few years. The demand for coke has been increasing significantly since 2002 because China, a major player in the sea-borne trade, has increased its internal consumption and adopted restrictive export quotas. In addition, India has become a major consumer of coke, considerably increasing its imports in the past years. Due to logistical reasons, China supplies most of India’s coke and this increase in consumption tightened even more the worldwide supply-demand balance of metallurgical coke.

In 2013, Chinese coke prices continued decreasing until the third quarter, when the prices remained flat.

Limestone and Dolomite

Our Bocaina mine is located in Arcos, in the State of Minas Gerais, and has been supplying, since the early '70s, limestone (calcium carbonate) and dolomite (dolomitic limestone) to our Presidente Vargas Steelworks in Volta Redonda. These products are used in the process of sintering and calcination. Arcos has one of the biggest and best reserves of limestone in the world, which is used in the production of various products, including cement.

The annual production of limestone and dolomite for our steelworks is approximately 2.4 million tons.

The main products obtained from limestone and dolomite that are transferred to our steelworks in Volta Redonda are:

·         Limestone and dolomite calcination: with a granulometry between 32 and 76 mm, they are used in the lime plant in Volta Redonda to produce calcitic and dolomitic lime, for further use in the steelmaking process and sintering. At the steelworks, lime is used for chemical controlling of liquid slag, in order to preserve the refractory of the converters and assist in the stabilization of the chemical reactions that occur during the steel manufacturing process. During sintering, the purpose of lime is to increase the performance of this process and the final quality of the sinter that is produced.

·         Limestone and dolomite sintering: used in the production of “sinter”, in our steelworks. The sinter is composed of fine ores, solid fuel and flux, which enable semi-melting and sintering ore. The sinter is used in blast furnaces as a source of iron for the production of pig iron.

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Beginning in 2009, with our entry into the cement market, the mine in Arcos also became responsible for supplying limestone for cement manufacturing in Volta Redonda.

Aluminum, Zinc and Tin

Aluminum is mostly used for steelmaking. Zinc and tin are important raw materials used in the production of certain higher-value steel products, such as galvanized and tin plate, respectively. We typically purchase aluminum, zinc and tin from third-party domestic suppliers under one year contracts. Specifically in relation to tin, we purchase part of our demand from CSN’s subsidiary ERSA. We maintain approximately 38, 24 and 36 days inventory of tin, aluminum and zinc, respectively, at the Presidente Vargas Steelworks.

Other Raw Materials

In our production of steel, we consume, on an annual basis, significant amounts of spare parts, refractory bricks and lubricants, which are generally purchased from domestic suppliers.

We also consume significant amounts of oxygen, nitrogen, hydrogen, argon and other gases at the Presidente Vargas Steelworks. These gases are supplied by a third-party under a long-term contract from its gas production facilities located on the Presidente Vargas Steelworks site. In 2013, we used 673,084 tons of oxygen to produce 4.5 million tons of crude steel.

Water

Large amounts of water are also required in the production of steel. Water serves as a solvent, a catalyst and a cleaning agent. It is also used to cool, to carry away waste, to help produce and distribute heat and power, and to dilute liquids. Our source of water is the Paraíba do Sul River, which runs through the city of Volta Redonda. Over 94% of the water used in the steelmaking process is recirculated and the balance, after processing, is returned to the Paraíba do Sul River. Since March 2003, the Brazilian government has imposed a monthly tax for our use of water from the Paraíba do Sul River, based on an annual fee of approximately R$3.3 million.

Electricity

Steelmaking also requires significant amounts of electricity to power rolling mills, production lines, hot metal processing, coking plants and auxiliary units. In 2013, our Presidente Vargas Steelworks consumed approximately 3.0 million MWh of electric energy or 636 kilowatt hours per ton of crude steel. This level means we are one of the largest consumers of electricity in Brazil, accounting for approximately 8% of the overall consumption of electricity in the State of Rio de Janeiro.

Our main source of electricity is our 235.2 MW thermoelectric co-generation power plant at the Presidente Vargas Steelworks, besides the Itá and Igarapava hydroelectric facilities, from which we have ensured energy of 167 MW and 23 MW, respectively. In addition, we installed a new turbine generator at the Presidente Vargas Steelworks, which adds 21 MW to our existing installed capacity. This turbine is located near our Blast Furnace No. 3, using the outlet gases from the iron making process to generate energy.

Natural Gas

In addition to electricity, we consume natural gas, mainly in our hot strip mill. Companhia Estadual de Gás do Rio de Janeiro S.A., or CEG Rio, which was privatized in 1997, is currently our major source of natural gas. Variations in the supply of gas can affect the level of steel production. We have not experienced any significant stoppages of production due to a shortage of natural gas. We also purchase fuel oil from Petrobras and Raízen. In 2013, the Presidente Vargas Steelworks consumed 480,934 dam3 of natural gas.

The market for natural gas is strongly correlated with the electricity market. Brazilian electricity generation is based principally on hydroelectric power, itself dependent on the level of Brazil’s reservoirs. As a contingency against low levels of rainfall, there are several thermoelectric power plants which use natural gas. Due to low levels of rainfall in 2012, reservoirs reached their lowest level in the past ten years; consequently the Brazilian Electricity System Operator (Operador Nacional do Sistema Elétrico), or ONS, increased the utilization of thermoelectric generation.

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Diesel Oil

In mid-October 2006 and July 2008, we entered into agreements with Companhia Brasileira de Petróleo Ipiranga, or Ipiranga, to receive diesel oil in order to supply our equipment in our mining plants in the state of Minas Gerais, which provide the iron ore, dolomite and limestone used in our steel plant in Volta Redonda. In 2013, our consumption totaled 43,622 kiloliters of diesel oil, for which we paid U.S.$35.88 million.

Suppliers

We acquire the inputs necessary for the production of our products in Brazil and abroad, with aluminum, zinc, tin, spare parts, refractory bricks, lubricants, oxygen, nitrogen, hydrogen and argon being the main inputs acquired in Brazil. Coal and coke are the only inputs acquired abroad. In 2013 we consumed 613,000 tons of third party slabs. 

Our main raw materials suppliers are set forth below:

 

 

 

 Main Suppliers  

 

Raw Material  

 

 

 

Açominas and CSA

 

Slabs

BHP Billiton, Jim Walter Resources, Alpha Natural Resources, Rio Tinto and Marubeni

 

Coal 

CI Milpa and ThyssenKrupp

 

Coke 

RBA and Alubar

 

Aluminum 

Votorantim Metais (1)

 

Zinc 

White Solder, ERSA and Melt Metais e Ligas SA 

 

Tin 

Sotreq, Ecolab Quimica, Metso, Continental, MB Komatsu, Nortel, Deva Veiculos and MTU do Brasil

 

Spare parts 

Magnesita, RHI, Vesuvius and Saint Gobain 

 

Refractory bricks 

Daido, Ipiranga and Quaker 

 

Lubricants 

___________

(1) We depend on Votorantim Metais as it is the only supplier of zinc in Brazil

 

Flat Steel Mill

The Presidente Vargas Steelworks, located in the city of Volta Redonda, in the State of Rio de Janeiro, began operating in 1946. It is an integrated facility covering approximately 4.0 square km and containing five coke batteries (three of which are currently in operation), three sinter plants, two blast furnaces, a basic oxygen furnace steel shop, or BOF shop, with three converters, three continuous casting units, one hot strip mill, three cold strip mills, two continuous pickling lines, one continuous annealing line, three continuous galvanizing lines, four continuous annealing lines exclusively for tin mill products and six electrolytic tinning lines.

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Our major operational units and corresponding effective capacities as of December 31, 2013, including CSN LLC and Lusosider, are set forth in the following chart:  

Effective Capacity

 

 

 

 

 

 

 

Tons 
per year  

 

Equipment 
in operation  

Process:

 

 

 

 

Coking plant 

 

1,680,000 

 

3 batteries 

Sintering plant 

 

6,930,000 

 

3 machines 

Blast furnace 

 

5,380,000 

 

2 furnaces 

BOF shop 

 

5,750,000 

 

3 converters 

Continuous casting 

 

5,600,000 

 

3 casters 

Finished Products:

 

 

 

 

Hot strip mill 

 

5,100,000 

 

1 mill 

Cold strip mill 

 

4,700,000 

 

6 mills 

Galvanizing line 

 

2,095,000 

 

7 lines 

Electrolytic tinning line 

 

1,030,000

 

6 lines

 

Downstream Facilities

CSN Paraná  

Our CSN Paraná branch produces and supplies plain regular galvanized, Galvalume® and pre-painted steel products for the construction and home appliance industries. The plant has an annual capacity of 330,000 tons of galvanized products and Galvalume® products, 130,000 tons of pre-painted products, which can use cold-rolled or galvanized steel as substrate, and 220,000 tons of pickled hot-rolled coils in excess of the coils required for the coating process.

Metalic  

We have a 99.99% ownership interest in Cia. Metalic Nordeste, or Metalic. Metalic is one of the few two-piece steel can producers in all the Americas. It has approximately 12% of the packaging market for carbonated drinks in the Northeastern regions of Brazil. Currently, we are Metalic’s only supplier of the steel used to make two-piece cans. The development of drawn-and-wall-ironed steel for the production of two-piece cans is an important achievement in the production process at the Presidente Vargas Steelworks.

Prada  

We have a 99.99% ownership interest in Cia. Metalúrgica Prada, or Prada. Established in 1936, Prada is the largest Brazilian steel can manufacturer and has an annual production capacity of over one billion cans in its three industrial facilities: two located in the state of São Paulo and one in the state of Minas Gerais. Currently, we are the only Brazilian producer of tin plate, Prada’s main raw material, which makes Prada one of our major customers of tin plate products. Prada has important clients in the food and chemical industries, including packages of vegetables, fish, dairy products, meat, aerosols, paints and varnishes, and other business activities. On December 30, 2008, we merged one of our subsidiaries, Indústria Nacional de Aços Laminados S.A., or INAL, into Prada. INAL was a distributor of laminated steel founded in 1957 and, after the merger, it became a branch of Prada responsible for distribution of Prada’s products, or Prada Distribuição.

Prada Distribuição is one of the leader in the Brazilian distribution market, with 460,000 tons per year of installed processing capacity. Prada Distribuição has one steel service centers and six distribution centers strategically located in the Southeast region Brazil. The main service center is located in the city of Mogi das Cruzes between the cities of São Paulo and Rio de Janeiro. Its product mix also includes sheets, slit coils, sections, tubes, and roofing in standard or customized format, according to clients’ specifications. Prada Distribuição processes the entire range of products produced by us and services 4,000 customers annually from the civil construction, automotive and home appliances sectors, among others.

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Companhia Siderurgica Nacional, LLC  

CSN LLC holds the assets of former Heartland Steel, a flat-rolled steel processing facility in Terre Haute, Indiana. This facility has an annual cold rolling production capacity of 800,000 tons of full hard cold rolled coils. Delivery capacity of cold-rolled and galvanized products are 280,000 and 315,000 tons/year, respectively. Currently, CSN LLC is obtaining raw materials by buying hot rolled coils directly from mills in the United States or importing from mills abroad. See “Item 4B. Government Regulation and Other Legal Matters—Anti-Dumping Proceedings—United States” for a discussion about anti-dumping issues on Brazilian hot coils exports to the United States.

Lusosider, Aços Planos, S.A.  

We own 99.94% of Lusosider, a producer of hot-dip galvanized products and cold-rolled located in Seixal, near Lisbon, Portugal. Lusosider produces approximately 240,000 tons of galvanized products and 50,000 tons of cold-rolled per year. Its main customers include service centers and tube making industries.

CSN Distribuição

We have 2 service centers, one located in the city of Camaçari, in the State of Bahia and one in the city of Jaboatão dos Guararapes, state of Pernambuco, to support sales in the Northeastern and North regions. There is also a Distribution Center in the city of Canoas, state of Rio Grande do Sul, to support sales in the South region of Brazil.

Long Steel SWT 

The acquisition in February 2012 of SWT, located in Unterwellenborn, Germany, marks our entrance into the long steel market. SWT specializes in the production of profiles, including IPE (European I Beams) and HE (European Wide Flange Beams) sections, channels and UPE (Channels with Parallel Flanges) sections and steel sleepers. In total, more than 200 types of sections are produced according to different German and international standards.

 

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The following chart reflects our production cycle in general terms.

 

Production Process  

Scrap arrives at the mill by rail or road. Two gantry cranes are used to transfer the scrap to a stockyard. Two remote-controlled diesel-hydraulically driven transfer wagons carry the recycled steel in containers, which also function as charging vessels to the melting shop.

The electric arc of the DC-furnace is generated between a graphite electrode and the bottom of the furnace, which functions as the anode. This energy, supplemented by natural gas/oxygen burners, is used to convert this material into molten steel.

After the smelting process, the molten metal is tapped into the ladle in a wagon, which is then positioned under the ladle furnace. The purpose of this process is to achieve the desired composition, by the addition of alloys, and the necessary final temperature of the steel. The ladle is then transported to the casting shop with the transport wagon and is elevated onto the turret that rotates it into the casting position. The tundish distributes the steel to four strands of water-cooled copper moulds that provide the desired beam blank shape. As soon as the strands pass through the moulds they undergo an intensive cooling process. After solidification is complete, the strands pass through guides which transport and straighten the strands out of the casting arc into the horizontal plane, where they are then cut into pieces of the required length with automatic flame-cutting torches. A transfer manipulator passes the beam blanks to the roller table of the rolling mill.

The rolling mill provides facilities for both duo and universal rolling processes. In contrast to the continuous operation where the sections are rolled in strands arranged one after the other, in this reversing mill the section bar is run forwards and backwards in several passes through rolls that either have “grooves” or function according to the universal rolling principle.

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The three stand assemblies in the rolling mill include, a break down stand coupled with a cropping saw, a tandem group and a finishing group. After having passed the finishing strand, the dimensional accuracy of the rolled section is measured using laser technology.

The next stage is the finishing department, where the sections, which can be up to 100m long, cool down on a walking beam cooling bed, before being straightened. The sections are then cut on a cold saw plant to lengths between 6m and 28m, as requested by customers.

Production Output

Certain Operating Statistics  

 

 

 

 

 

2013

2012

 

 

(In thousands of tons)

Production of:

 

 

 

Beam Blank

 

813

885*

Long Steel (Finished Products)

 

765

827*

 

*2012 operating figures cover SWT’s production during the full year of 2012. As we have consolidated SWT’s results as of February 2012, its 2012 production after this date was of 812 thousand tons of beam blank and 755 thousand tons of long steel (finished products).

Raw Materials and Suppliers

Raw Materials and Energy Requirements

The main raw material we use in our long steel operation is scrap. In addition, our production operations consume electricity, natural and technical gases and ancillary materials like ferroalloys, lime, dolomite and foaming coal.

Scrap

During 2010 and 2011, prices for scrap continuously increased due to unbalanced supply and demand in Europe and increasing globalization of scrap trading worldwide. Prices in the European market were particularly affected by prices in Turkey and Asia. In 2013, the scrap average price decreased significantly until the middle of the year and after that the prices increased slightly. In 2013, our scrap consumption totaled approximately 919 million tons and accounted for nearly 64 % of our production cost. We are able to obtain 80% of our scrap needs from within a 250 km vicinity.

Ferroalloys, lime and foaming coal

Because we do not own any sources of alloys, lime and foaming coal we have to buy these materials from traders. Our traders are located mostly in Europe and the materials come from different producers around the world.

Rolls

We consume different types of rolls in our rolling mill, usually cast rolls which come from Germany, Italy, Slovenia and China.

Graphite electrodes

In the smelting shop (electric arc furnace), we use graphite electrodes with a diameter of 750mm and in the ladle furnace, we use electrodes with a diameter of 400mm. The electrodes come from Europe, Japan and China.

Other raw materials

In our production of steel we consume, on an annual basis, amounts of electrodes, rolls, refractory materials and materials for packaging and spare parts, which are mostly purchased from domestic suppliers.

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Water  

Large amounts of water are required in the production process. Our source of water is the Saale river, located 5 km from the plant. We use our own water station to pump water via pipelines to the plant.

Electricity and Natural Gas

Steelmaking also requires significant amounts of electricity and natural gas, for which we have supply contracts. Under normal conditions, we consume approximately 450 GWh of electric energy and an equal amount of natural gas.

Suppliers                                                                                                                              

We acquire the inputs necessary for the production of our products in Germany and other countries.

 Our main raw materials suppliers are set forth below:

 

 

 

 Main Suppliers  

 

Raw Material  

 

 

 

Scholz, TSR

 

Scrap 

Verbund

 

Electric Energy 

E.on Ruhrgas

 

Natural gas

RHI

 

Refractory

SGL, Graftec, NCK

 

Electrodes 

Siemens, Schneider, Voith

 

Spare parts 

Irle, Walzengießerei Coswig

 

Rolls

 

Facilities

SWT possesses a 28km internal railway system, and the logistics infrastructure to ensure supply of scrap and delivery of finished products. Main markets served by SWT include: non-residential construction, equipment industries, engineering and transport, in Germany and neighboring countries, including Poland and the Czech Republic.

 

Effective Capacity

 

 

 

 

 

 

 

Tons 
per year  

 

Equipment 
in operation  

Process:

 

 

 

 

EAF – Electric Arc Furnace

 

1,100,000 

 

1 furnace

Ladle Furnace

 

1,100,000 

 

1 furnace

Finished Products:

 

 

 

 

Section mill 

 

1,000,000 

 

1 mill 

 

Long Steel – Volta Redonda

Plant Characteristics

 

We completed a new plant for production of long steel products in Volta Redonda and started assisted operations in December 2013. The plant consists of an electric arc steelmaking furnace, continuous casting for billets and a hot rolling mill for round section long products – wire rod and rebar. We expect this plant to reach 500,000 t/year output when full operational, providing the domestic market with products for civil construction.

Melt Shop

 

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Designed for annual output 383,000 t/year, this unit has main process equipment which includes one 50t electric arc furnace, one 50t ladle furnace, one continuous casting machine for billets with three strands and auxiliary equipment.

 

Rolling Mill

 

Designed for 500,000 t/year, this unit has one walking-beam reheating furnace, or RHF, a 4-stand blooming mill, a 250t hot shear, a 6-stand roughing mill, a 6-stand intermediate mill, a 6-stand pre-finishing mill, internal water cooling, a double length flying shear, a stepping cooling bed, a 500t cold shear, transfer inspection stand, bundling machine, a water-cooling section before wire finishing mill, a 10-stand high-speed wire finishing mill, a water-cooling section after wire finishing mill, a laying head, a loose coil cooling line, reforming device, bundling machine, stripper and coil handling devices.

 

Production Process - Rebar and Wire-rod

Steelmaking

The process of steelmaking begins with the arrival of scrap metal at our facilities by wagons and trucks. After being benefited, the scrap metal is destined for scrap bucket preparation in the yard. The scrap buckets are prepared based on the type of steel that will be manufactured in the melting shop.

The scrap bucket mixed with pig iron is, with the help of a crane, brought to the electric arc furnace. After loading, the furnace begins the melting process, which involves the creation of steel through use of electrodes, burners and oxygen injectors. In the furnace, the scrap metal becomes liquid steel after reaching the appropriate temperature and is tapped into a previously prepared ladle.

During tapping, alloys are added to the liquid steel and the mixture is placed in a ladle furnace. In the ladle furnace, chemical composition corrections are made to the mixture. The ladle, containing the liquid steel is then brought to the continuous casting machine.

The liquid steel is then poured into a tundish where it is cast into the molds, beginning the process of solidification and transformation of steel in billets. After being solidified, the billets are cut into particular sizes according to the intended application.

Rolling Mill

The rolling mill is comprised of a blooming mill, a roughing mill, an intermediate mill, a pre-finishing mill and a wire finishing mill in order to reduce the steel thickness and make the thickness uniform. When using 250x250mm cut slabs, the slabs will be moved by a chain shifting device, which has heat insulation, that brings the slabs to the delivery table in the blooming mill before they are rolled into transfer bar of 150x150mm and then cropped and divided by a 250t hot shear. Afterwards the transfer bars are sent by the heat retaining table and chain shifting device to the roughing mill. Then, in line with product requirements, for straight pieces the transfer bar will be fed into roughing mill, intermediate rolling mill and pre-finishing mills to be rolled continuously into straight thread rebar or round bar. In order too produce wires, the rolling piece leaving the pre-finishing mill will be fed into high-speed wire finishing mill where it is rolled into the desired wire coils.

For feed stock of a 150x150mm billet supplied by EAF, the billet will be sent straight to the roughing mill, intermediate rolling mill, pre-finishing mill and finishing wire mill through the heat retaining table and rolled into the desired size according to order requirements.

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The production flow chart is showed below:

 

Raw Materials and Suppliers

Raw Materials and Energy Requirements

The main raw material we use in our long steel operation in Volta Redonda is scrap, in addition to pig iron. We also use blooms, which we produce at our BOF shop. In addition, our production operations consume electricity, natural and technical gases and ancillary materials like ferroalloys, lime, dolomite and foaming coal.

Scrap

Scrap prices in the domestic market may be affected by prices in North America, Europe and Asia. As we started produce long steel in the end of 2013, our consumption of scrap was negligible. We are generally able to obtain 100% of our scrap needs from within a 350 km vicinity.

Ferroalloys, lime and foaming coal

Because we do not own any sources of pig iron, alloys and foaming coal, we have to buy these materials from domestic market suppliers. Lime is supplied by our lime production plant in Volta Redonda.

Other raw materials

In our production of steel, we consume, on an annual basis, amounts of electrodes, rolls, refractory materials, packaging materials and spare parts, mainly purchased from domestic suppliers.

Water  

The technology used in the construction of the Long Steel plant provides most water recirculation (the water used continues in the same process). Due to this, water consumption is not significant for the UPV.

 

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Electricity and Natural Gas

Steelmaking also requires significant amounts of electricity and natural gas, for which we use the same supply as our flat steel plant. Under normal conditions, when fully operational, we expect we will consume approximately 340 GWh of electric energy and 980 TJ of natural gas.

Our main raw materials suppliers are set forth below:

 

 

 

 Main Suppliers  

 

Raw Material  

 

 

 

Domestic Market

 

Scrap

Magnesita  – Saint Gobain

 

Refractory

Graphitec – SGL Carbon

 

Electrodes

Siemens, EVG, DEM Contruzionni, Matsui Corp., Mitsubishi Corp, Sund Birsta, Italvibras, Ishikawajima, Hitachi, Mitsubishi Electric, Lankhorst

 

Spare parts

Gerdau and San Agostino

 

Rolls

 

Our Mining Segment

Our mining activities are one of the largest in Brazil and are mainly driven by the exploration of one of the richest Brazilian iron ore reserves, Casa de Pedra, in the State of Minas Gerais. We sell our iron ore products mainly in Asia, Europe and Brazil with sales and marketing taking place through our principal hubs of Minas Gerais, in Brazil, Austria, Madeira Islands, Portugal and Hong Kong.

Our Mines

Location, Access and Operation

Casa de Pedra

Casa de Pedra mine is an open pit mine located next to the city of Congonhas in the State of Minas Gerais, Brazil, approximately 80 km south of the city of Belo Horizonte and 360 km north of the city of Rio de Janeiro. The site is approximately 1,000 meters above sea level and accessible from the cities of Belo Horizonte or Congonhas through mostly paved roads.

Casa de Pedra mine is a hematite-rich iron deposit of an early proterozoic banded iron formation in Brazil’s Iron Ore Quadrangle (Quadrilátero Ferrífero), which is located in the central part of the State of Minas Gerais in the Southeastern region of Brazil and has been one of the most important iron producing regions in Brazil for the last 50 years. It has been incorporated to CSN in 1941, but has been in operation since 1913.

Our iron ore at Casa de Pedra is currently excavated by a fleet composed of P&H 1900AL electric shovels, Komatsu PC5500 hydraulic shovels, wheel loaders (Caterpillar 994F, Caterpillar 994H, Komatsu WA1200 and LeTourneau 1850) and then hauled by a fleet of Terex Unit Rig MT3300AC (150 tons), Caterpillar 793D (240 tons) and Terex Unit Rig MT4400AC (240 tons). This fleet has a total mine handling installed annual capacity of approximately 100 million tons.

The ore is then processed in our treatment facilities, which have an installed capacity of 21 million tons of products per year. In Casa de Pedra, we use electrical power provided by hydroelectric plants.

Casa de Pedra mine is wholly-owned by us and supplies all of our iron ore needs, producing lump ore, sinter feed and pellet feed fines with high iron content. The maps below illustrate the location of our Casa de Pedra mine:

 

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fp50a

 

 

fp50b  

 

Namisa

We own additional iron ore assets through Namisa, our 60% jointly-controlled investee, which acquired CFM (Companhia de Fomento Mineral e Participações) in July 2007. CFM was formed in 1996 with the purpose of utilizing and enhancing the ore treatment facilities of the Itacolomy mines, for the beneficiation of crude ore extracted from the Engenho mine.

The Engenho mine is also an open pit mine located at the Southwestern region of the Iron Ore Quadrangle, 60 km south of the city of Belo Horizonte and is accessible from the cities of Belo Horizonte or Congonhas through mostly paved roads. The map below illustrates the location of our Engenho mine:

 

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fp52a

 

The Engenho mine was incorporated into the Namisa mine in 2007, but its operations started in 1950. The ore in this mine is excavated by a fleet of wheel loaders (Komatsu WA470-6) and excavators (Komatsu PC600LC-8) and then hauled by a fleet of Iveco Trakker 410T42 trucks.

Then the ore is processed in Pires treatment facilities, which have an installed capacity of 7 million tons of products per year. In the Engenho mine and Pires Complex, we use electrical power provided by hydroelectric plants.

The Fernandinho mine, which we also hold through Namisa, is located in the city of Itabirito, in the State of Minas Gerais. This city is located in the Middle-East region of the State of Minas Gerais and approximately 40 km from the city of Belo Horizonte. Fernandinho is an open pit mine and is accessible from the cities of Belo Horizonte or Itabirito through mostly paved roads. The map below illustrates the location of our Fernandinho mine:

 

fp53a  

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The Fernandinho mine was incorporated to Namisa in 2007 but its operation also started in 1950. The ore in this mine is excavated by a fleet of wheel loaders (Komatsu WA470-6) and excavators (Komatsu PC350LC-8) and then hauled by a fleet of Iveco Trakker 410T42 and Iveco Trakker 380T42 trucks. Then the ore is processed in Fernandinho treatment facilities, which have an installed capacity of 750 thousand tons of products per year. In the Fernandinho mine, we use electrical power provided by hydroelectric plants.

 

The map below shows the location of Casa de Pedra, Engenho and Fernandinho Mines:

Limestone and Dolomite Mine

Our extraction and preparation of limestone and dolomite is done at our Bocaina mining facility located in the city of Arcos, in the State of Minas Gerais. The Bocaine mine is an open pit mine and it can be accessed from the cities of Belo Horizonte, located approximately 230 km away, and Volta Redonda (where the Presidente Vargas Steelworks is situated), located approximately 462 km away, through mostly paved roads.

The ore in this mine is excavated by a fleet wheel loaders (Caterpillar 990 and Caterpillar 950 Gll) and excavators (Komatsu PC350LC-8) and then hauled by a fleet of Iveco Trakker 8 x 4 and Caterpillar 775 trucks.

 This mining facility has an installed annual production capacity of approximately 4.0 million tons. We use electrical power provided by a hydroelectric plant in Arcos. This mining facility has sufficient limestone and dolomite reserves to adequately supply our steel production, at current levels, for 37 years.

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The Bocaina mine is wholly-owned by us. The map below shows the location of this mine:

Tin

We own a tin mine in Itapuã do Oeste, in the State of Rondônia, through our subsidiary ERSA. This facility has an installed annual production capacity of approximately 3,600 tons of tin, which we use substantially as a raw material to produce tin plate, a coated steel product. A small part of our tin production that is not used as raw material is sold to third parties; however, the results from these sales are insignificant to our consolidated results.

Mineral Rights and Ownership

The Mining Code and the Brazilian Federal Constitution impose requirements on mining companies relating to, among other things, the manner in which mineral deposits are exploited, the health and safety of workers, the protection and restoration of the environment, the prevention of pollution and the promotion of the health and safety of local communities where the mines are located. The Mining Code also imposes certain notifications and reporting requirements.

We hold concessions to mine iron ore, limestone and dolomite. We purchase manganese in the local market. Except for Namisa’s mines, in which we have a 60% ownership interest, we own 100% of each of our mines. In addition, each mine is an “open pit” mine. Iron ore extraction, crushing, screening and concentration are done in three different sites: Casa de Pedra (our property), Pires Beneficiation Plant and Fernandinho Mine (both Namisa’s property).

Casa de Pedra

Our mining rights for Casa de Pedra mine include the mine, a beneficiation plant, roads, a loading yard and a railway branch and are duly registered with the Brazilian Department of Mineral Production (Departamento   Nacional de Produção Mineral), or DNPM. DNPM has also granted us easements in 19 mine areas located in the surrounding region, which are not currently part of Casa de Pedra mine.

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We believe we have obtained and are in compliance with all licenses and authorizations for our operations and projects at Casa de Pedra mine.

Exploration undertaken at the Casa de Pedra mine is subject to mining lease restrictions, which were reflected in our iron ore reserve calculations. Quality requirements (chemical and physical) are the key “modifying factors” in the definition of ore reserves at Casa de Pedra and were properly accounted for by us.

Mineral Reserves

The following table sets forth the type of each of our mines, period of operation, projected exhaustion dates and percentage of our interest:

Mine  

 

Type  

 

Operating Since  

 

Projected exhaustion date  

 

CSN % interest  

Iron:

 

 

 

 

 

 

 

 

Casa de Pedra (Congonhas, Minas Gerais)

 

Open pit 

 

1913 

 

2041 

 

100 

Engenho (Congonhas, Minas Gerais)

 

Open pit 

 

2007 (Start of operation by Namisa)

 

2041 

 

60 

Fernandinho (Itabirito, Minas Gerais)

 

Open pit 

 

2007 (Start of operation by Namisa)

 

2030 

 

60 

 

Limestone and Dolomite:

 

 

 

 

 

 

 

 

Bocaina (Arcos, Minas Gerais)

 

Open pit 

 

1946 

 

2050 

 

100 

Tin

 

 

 

 

 

 

 

 

Santa Barbara (Itapuã do Oeste, Rondonia)

 

Open pit 

 

1950

 

2054

 

100 

 

The following table sets forth our estimates of proven and probable reserves and other mineral deposits at our mines reflecting the results of reserve studies. They have been calculated in accordance with the technical definitions contained in the SEC’s Industry Guide 7, and estimates of mine life described herein are derived from such reserve estimates. In the case of the Engenho and Fernandinho mines, where we own 60% of interests, the mineralized materials disclosed are for the entire mine, and not just for our proportional interest in the mine.

According to the report “Audit of Ore Reserves for CSN Casa de Pedra Iron Mine”, prepared by Golder Associates in May 2007, our reserve estimation process is subject to some smoothing, but does not reflect losses for mine dilution and mining recovery. We intend to perform studies regarding those losses during the preparation process for the new reserve audit. Likewise, Namisa’s estimation process for the Engenho and Fernandinho mines does not reflect losses for mine dilution and mining recovery.

Presently we only have audited reserves for our Casa de Pedra mine. In 2013 we conducted drilling campaigns in Casa de Pedra, Engenho and Fernandinho and we expect to have new Audit Reports for these three mines by the end of 2014. We do not have resources/reserves studies for our Bocaina mine and only disclose mineralized materials for this property. As for our Santa Barbara mine, we do not have reserve estimates and do not currently plan to begin campaigns to complete a study in connection with our Bocaina and Santa Barbara properties in light of their reduced materiality to our business. We do not have audited data for resources estimates, only for reserves estimates.

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MINERAL RESERVES AND QUANTITY ESTIMATES FOR MINERALIZED MATERIAL – As of December 31, 2013 

 

 

Proven and Probable Reserves(1)

 

Quantity Estimates for Mineralized Material(2)

 

 

 

 

 

 

 

 

 

 

Recoverable  

 

 

Mine Name  

 

Ore Tonnage(3)

 

 

 

 

 

Product(5)

 

Tonnage  

and Location  

 

(millions of tons)

 

Grade(4)

 

Rock Type  

 

(millions of tons)

 

(millions of tons)

 

 

Proven(6)

 

 Probable(7)

 

 

 

 

 

 

 

Iron:

 

 

 

 

 

 

 

 

 

 

 

 

Casa de Pedra(Congonhas, 

 

 

 

 

 

 

 

Hematite (21%)

 

 

 

 

Minas Gerais)

 

933 

 

514 

 

47.79% Fe 

 

Itabirite (79%)

 

819

 

8,202

Engenho 

 

 

 

 

 

 

 

 

 

 

 

 

(Congonhas, Minas Gerais)

 

 

 

 

 

46.07% 

 

Itabirite (100%)

 

 

 

850

Fernandinho 

 

 

 

 

 

 

 

 

 

 

 

 

(Itabirito, Minas Gerais)

 

 

 

 

 

40.21% 

 

Itabirite (100%)

 

 

 

578

Total Iron:

 

933

 

514  

 

 

 

 

 

819

 

9,630

(Congonhas, Minas Gerais)

 

 

 

 

 

 

 

 

 

 

 

 

 

Limestone and Dolomite:

 

Proven(6)

 

Probable(7)

 

 

 

 

 

 

 

 

Bocaina 

 

 

 

 

 

41.3%CaO 

 

Limestone (86%)

 

 

 

 

(Arcos, Minas Gerais)

 

 

 

 

 

5.99%MgO 

 

Dolomite (14%)

 

 

 

1,190

__________________

(1)  Reserves means the part of a mineral deposit which could be economically and legally extracted or produced at the time of the reserve determination. We do not have reserve audits for the Engenho and Fernandinho. The reserves for the Casa de Pedra mine were audited in 2006 and we have reduced the amount of proven reserves by our annual production since then.
(2)  Mineralization that has been sufficiently sampled at close enough intervals to reasonably assume continuity between samples within the area of influence. This material does not yet qualify as a reserve.
(3)  Represents ROM material.
(4)  Grade is the proportion of metal or mineral present in ore or any other host material.
(5)  Represents total product tonnage after mining and processing losses.
(6)  Means reserves for which: (i) quantity is computed from dimensions revealed in outcrops, trenches, workings or drill holes; grade and/or quality are computed from the results of detailed sampling; and (ii) the sites for inspection, sampling and measurement are spaced so closely and the geologic character is so well defined that size, shape, depth and mineral content of reserves are well- established.
(7)  Means reserves for which quantity and grade and /or quality are computed from information similar to that used for proven (measure) reserves, but the sites for inspection, sampling and measurement are farther apart or are otherwise less adequately spaced. The degree of assurance, although lower than that for proven (measure) reserves, is high enough to assume continuity between points of observation.

 

Summary of Casa de pedra Mine Ore Reserves(1)
Proven - 2013 Probable - 2013 Total - 2013 Total - 2012
Ore Tonnage(2) Ore Tonnage Ore Tonnage Grade(3) Ore Tonnage Grade
Iron:
CSN
Casa de Pedra (Congonhas, Minas Gerais) 933 514 1.447 47.49% 1.471 47.49%

(1)   Reserves means the part of a mineral deposit which could be economically and legally extracted or produced at the time of the reserve de termination.The reserves for the Casa de Pedra mine were audited in 2006 and we have reduced the amount of proven reserves by our annual production since then.

(2)   Represents ROM material.

(3)   Grade is the proportion of metal or mineral present in ore or any other host material

 

The metallurgical recovery factor is the proportion of iron in the ore delivered to the processing plant that is recovered by the metallurgical process. In 2013, the metallurgical recovery factor obtained by Casa de Pedra concentration plant was 72.4%. That same factor was 66.3% for the Engenho plant and 58.6% for the Fernandinho plant.

The cutoff grade is the minimum ore percentage that determines which material will be fed in the processing plant. We also plan to perform studies to determine the cutoff grade value during the preparation process for the new audit in Casa de Pedra. In the audit performed in 2006, the Benefit Function considered the lithologies to separate iron from waste. The cutoff grade value for Namisa is also yet to be determined.

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The prices used in the 2006 audit for the estimation of Casa de Pedra reserves are shown in the following table (Golder’s Final Report for the Audit of Ore Reserves for CSN Casa de Pedra Iron Mine, 2007). As shown, the product price we assumed to estimate our reserves is conservative in comparison to the actual three-year average prices.

PRICE FOR THE THREE YEARS PRIOR TO THE AUDIT

 

Price for the three years prior to the audit

 

Average

 

Product Price

 

(U.S.$/t)

 

(U.S.$/t)

 

(U.S.$/t)

 

2004

2005

2006

 

From 2004 to 2006

 

Assumption

Lump

28.80

49.40

58.79

 

45.66

 

25.26

“Hematitinha”

12.08

28.34

35.75

 

25.39

 

18.14

Sinter Feed

21.91

37.58

44.73

 

34.74

 

20.73

Pellet Feed Fines

21.40

36.69

43.66

 

33.92

 

20.44

 

Namisa does not yet have a reserve audit; therefore, we have not established prices to estimate reserves for its mines.

Casa de Pedra

In 2006, we concluded an extensive, multi-year study of our iron ore reserves at Casa de Pedra. The study consisted of three phases. Phase one, which was completed in 1999, covered the ore bodies that are currently being mined or are close to the current operating open pits. Phase two, which was completed in early 2003, covered the other iron ore deposits at Casa de Pedra site. Phase three started in 2005 and involved a complete revaluation of our mineral reserves at Casa de Pedra.

We conducted extensive work throughout 2006 to document and classify all information related to both the current and future operations of the Casa de Pedra mine. In 2006, we hired Golder Associates S.A., or Golder, to undertake an independent analysis of the Casa de Pedra iron ore reserves. Golder carried out a full analysis of all available information and has independently validated our reported reserves.

Golder accepts as appropriate the estimates regarding proven and probable reserves made by us, totaling 1,631 million tons of iron ore (as of December 31, 2006) at a grade of 47.79% Fe and 26.63% SiO2. This new estimate of our iron ore reserves at Casa de Pedra is significantly larger than our estimate of 444 million tons, contained in an appraisal report prepared in 2003.

Over the course of the Casa de Pedra Mine’s life we have executed different drilling campaigns and, in total, we have drilled 91,515 meters until 2011. The last completed campaign started in May 2010 and ended in April 2011. In the course of that campaign, we drilled 11,069 meters. We are extending our drilling campaign by an additional 30,000 meters to increase and improve our knowledge about the iron ore deposits at Casa de Pedra. This campaign includes the programming of laboratory tests for approximately 1,800 samples. It started in October 2012 and by December 2013 we had drilled a total of 18,604 meters. We will use this new campaign and the 2010-2011 campaign for the new reserve audit. The first stage of the new reserve audit will be conducted in July 2014 and we expect to have the new Audit Report ready by the end of 2014. The second stage of the drilling campaign is expected to be concluded by November 2014.

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Namisa

An initial study was conducted at Fernandinho and Engenho mines to define the geological reserves and final pits. In 2008 and 2009, we extended our drilling campaign with an additional 5,179 meters at Engenho mine and 2,771 meters at Fernandinho mine (totaling a campaign of 7,950 meters) to increase and improve our knowledge about the iron ore deposits at these mines. In November 2012 we started a new drilling campaign with an additional 10,000 meters in the Engenho Mine. By December 2013, we had drilled a total of 5,652 meters and we will use this campaign and the ones from 2008-2009 to conduct the first stage of the new reserve audit in July 2014. Finally, we also started a drilling campaign of an additional 10,000 meters in the Fernandinho Mine and from January 2013 to December 2013 we have drilled 8,193 meters. We will use this campaign and the ones from 2008-2009 to conduct the first stage of the new reserve audit in July 2014 as well. We expect that this reserves will be incorporated into our mineral deposits in the new Audit Report by the end of 2014. The second stage of the drilling campaigns both to Engenho and Fernandinho is expected to be concluded by November 2014.

Production

Casa de Pedra

The Casa de Pedra facilities are located in the city of Congonhas, in the State of Minas Gerais. The Casa de Pedra mine is located 350 km from the Presidente Vargas Steelworks and supplies iron ore products to our steel mill, as well as for export through the Itaguaí Port. Casa de Pedra’s equipment fleet and treatment facilities have an installed annual ROM capacity of approximately 100.0 million tons and 21 million tons, respectively.

Namisa

Namisa has two beneficiation plants: one is the Pires Plant, which receives material from our Engenho mine (located at the northern border of the Casa de Pedra mine) and the other is the Fernandinho Plant, which receives material from our Fernandinho mine (located in the city of Itabirito). The beneficiation plant at Pires also processes crude ore acquired from other companies, which along with its own ROM, generates final products such as: lump ore, small lump ore (hematitinha), sinter feed and concentrates. The beneficiation plant at Fernandinho generates sinter feed and fines as final products.

Namisa complements our strategy to be a world leading producer of high quality iron ore. Namisa remains fully integrated with our railway and port logistics corridor, through long-term contracts, which provide sufficient railway and port logistics capacity for Namisa’s current and future production. Namisa is a leading company in iron ore mining and trading, with mining and processing operations in the State of Minas Gerais. Trading iron ore is obtained from small mining companies in the neighborhood and other trading companies.

The table below sets forth production of iron ore of our mines for the last three years:  

 

 

 

Production(1)

 

2011

2012

2013

Casa de Pedra (Mt)

20.1

19.8

15.4

Grade (%)

65.3%

64.4%

63.8%

Pires (2) (Mt)

5.7

4.1

3.4

Grade (%)

62.3%

62.2%

61.6%

Fernandinho(2) (Mt)

0.7

0.5

0.6

Grade (%)

58.6%

57.4%

59.4%

 

(1) In addition to its own production, Namisa also purchases iron ore from third parties. Third party purchase volumes totaled 7.5 million tons, 9.3 million tons and 11.9 million tons in 2011, 2012 and 2013, respectively.

(2) Production information considers 100% of the mines, not just our 60% interest.

 

 

 

CSN Consolidated Sales(1)

 

2011

2012

2013

Consolidated Sales (Mt)

23.8

20.2

21.5

Consolidated Net Revenue Per Unit (U.S.$/t)

135

97

98

 

(1)   Consolidated sales consider our proportional 60% interest in Namisa.

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Distribution

Transportation costs are a significant component of our steel and iron ore production costs and are a factor in our price-competitiveness in the export market. Railway is the main means of transport by which we convey raw materials from our mines to the Presidente Vargas Steelworks and steel and iron ore products to ports for shipment overseas. Iron ore, limestone and dolomite from our two mines located in the State of Minas Gerais are transported by railway to the Presidente Vargas Steelworks for processing into steel. The distances from our mines to the Presidente Vargas Steelworks are 328 km and 455 km. The distances from our mines to the ports are 440 km and 160 km. Imported coal and coke bought from foreign suppliers are unloaded at the port of Itaguaí, 90 km west of the city of Rio de Janeiro, and shipped 109 km by train to the Presidente Vargas Steelworks. Our finished steel products are transported by train, truck and ships to our customers throughout Brazil and abroad. Our most important local markets are the cities of São Paulo (335 km from the Presidente Vargas Steelworks), Rio de Janeiro (120 km) and Belo Horizonte (429 km).

Until recently, Brazil’s railway system (including railcars and tracks) was principally government-owned and in need of repair, but it has now been largely privatized. In an attempt to increase the reliability of our rail transportation, we hold interests in companies that hold concessions for the main railway systems we use. For further information on our railway concessions, see “—Facilities—Railways.”

We export iron ore and import coal and coke through the Itaguaí Port, in the State of Rio de Janeiro. The coal and container terminals have been operated by us since August 1997 and 1998, respectively.

Our Logistics Segment

Our logistics segment is comprised of railway and port facilities.

Railways

Southeastern Railway System

MRS has a 30-year concession to operate, through the year 2026 and renewable for an equal period of 30 years, Brazil’s Southeastern railway system. As of December 31, 2013, we held 33.27% of MRS’s total capital. The Brazilian Southeastern railway system, with 1,643 km of track, serves the São Paulo - Rio de Janeiro - Belo Horizonte industrial triangle in Southeast Brazil, and links our mines located in the State of Minas Gerais to the ports located in the states of São Paulo and Rio de Janeiro and to the steel mills of CSN, Companhia Siderúrgica Paulista or Cosipa, and Gerdau Açominas. In addition to serving other customers, the railway transports iron ore from our mines at Casa de Pedra in the State of Minas Gerais and coke and coal from Itaguaí Port in the State of Rio de Janeiro to the Presidente Vargas Steelworks and transports our exports to the ports of Itaguaí and Rio de Janeiro. The railway system connects the Presidente Vargas Steelworks to the container terminal at Itaguaí Port, which handles most of our steel exports. Our transport volumes represent approximately 23% of the Brazilian Southeastern railway system’s total volume. We are jointly and severally liable, along with the other main MRS’s shareholders, for the full payment of the outstanding amount of its indebtedness (See “Item 5E. Off-Balance Sheet Arrangements”), however, we expect that MRS will make the lease payments through internally generated funds and proceeds from financing.

Northeastern Railway System  

We hold interest in companies that have concessions to operate the Northeastern railway system, which operates in the states of Maranhão, Piauí, Ceará, Paraíba, Pernambuco, Alagoas and Rio Grande do Norte and connects with the region’s leading ports, offering an important competitive advantage through opportunities for intermodal transportation solutions and made-to-measure logistics projects. Resolution No. 4,042/2013 issued by the transportation regulatory agency (Agência Nacional de Transportes Terrestres), or ANTT, authorized the partial spin-off of TLSA and, as a result, the Northeastern railway system is currently divided into the Railway System I, operated by FTL, and the Railway System II, operated by TLSA.

As of December 31, 2013, we held 88.41% of the capital stock of FTL, which has a concession to operate the Railway System I (which encompasses the stretches between the cities of São Luís – Mucuripe, Arrojado – Recife, Itabaiana – Cabedelo, Paula Cavalcante – Macau and Propiá – Jorge Lins) of Brazil’s Northeastern railway system until 2027, renewable for an additional 30 years. The Railway System I consists of 4,238 km of railways. As of December 31, 2013, R$98 million in concession payments was outstanding over the remaining 15 years of the concession.

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As of December 31, 2013, we held 77.30% of the capital stock of TLSA, which has a concession to operate the Railway System II (which encompasses the stretches between Missão Velha – Salgueiro, Salgueiro – Trindade, Trindade – Eliseu Martins, Salgueiro – Porto de Suape and Missão Velha – Porto de Pecém) of Brazil’s Northeastern railway system. Once concluded, the Railway System II will have an extension of 1,728 km of tracks that will connect the interior of Northeast Brazil to Pecém and Suape Ports. This concession was granted in 1997 and recently had its original term extended until the earlier of 2057 or the date when TLSA reaches a rate of annual return of 6.75% of its total investment. For more information, see “Item 5E. Off-Balance Sheet Arrangements.”

Port Facilities

Solid Bulks Terminal

We hold a wide and modern logistics structure. As part of this structure, we own and operate TECAR through a lease agreement expiring in 2022, renewable for another 25 years at our option.

TECAR is connected to road and rail system across Southeastern Brazil and is one of the four port terminals that make up the Port of Itaguaí facilities. With a strategic location and a total area of 732,911 m², the terminal consists of a concrete molded berthing pier superposed on jacketed stilts connected to the mainland by an access bridge perpendicular to the berthing pier. Its backyard includes conveyor belts, internal road system, bulk storage yards, railway looping, as well as industrial and administrative facilities.

Our imports of coal and coke and exports of iron ore occur through this terminal. Under the terms of concession, we undertook to load and unload at least 3.0 million tons of bulk cargo annually. Among the approved investments that we had previously announced was the development and expansion of the solid bulks terminal at Itaguaí, which pahse 1 expansion was completed in 2013 to handle up to 45 million tons of iron ore per year. For further information, see “—D. Property, Plant and Equipment—Planned Investments—Mining.”

Container Terminal

We own 99.99% of Sepetiba Tecon S.A., or TECON, which has a concession to operate the container terminal at Itaguaí Port for a 25-year term expiring in 2026, that is renewable for another 25 years. As of December 31, 2013, approximately U.S.$122 million of the cost of the concession remained payable over the next 13 years of the lease. For more information, see “Item 5E. Off-Balance Sheet Arrangements.” The Itaguaí Port is located in Brazil’s Southeast Region, with all major exporting and importing areas of the states of São Paulo, Minas Gerais and Rio de Janeiro within 500 km from the port. This area represents more than 50% of the Brazilian gross domestic product, or GDP, according to the Brazilian Geography and Statistics Institute (Instituto Brasileiro de Geografia e Estatística). The Brazilian Federal Port Agency has spent more than U.S.$48 million in the past few years in port infrastructure projects such as expanding the maritime access channel and increasing its depth. In addition, significant investments were made by the Brazilian federal government in adding two extra lanes to the Rio-Santos road, and are being made in constructing the Rio de Janeiro Metropolitan Bypass (ongoing project), a beltway that will cross the Rio de Janeiro metropolitan area. These factors, combined with favorable natural conditions, like natural deep waters and a low urbanization rate around the port area, allow the operation of large vessels as well as highly competitive prices for all services rendered, resulting in the terminal being a major hub port in Brazil.

Investments made from 2007 to 2013, mainly in two Super Post Panamax Portainers and two Rubber Tired Gantry, or RTG cranes, 6 new Reach Stackers and 8 forklifts, among others, have shown to be successful. These investments, along with a focused marketing and sales strategy, enabled the terminal to rank first in market share among the three terminals of the state of Rio de Janeiro in 2013, with 42% of the total moves in those terminals.

We have invested in infrastructure and equipment in Sepetiba TECON, such as the Berth 301 Equalization and the acquisition of two new Super Post Panamax Portainers and four new RTG cranes to yard operations, that were delivered in the first quarter of 2014. We have carried out the dredging of Sepetiba Tecon’s Berths 302/303 and access channel to ‑15.5m depth. We expect these investments will increase TECON’s capacity from 320,000 containers (or 480,000 TEUs) to 440,000 containers (or 670,000 TEUs) per year. In 2013, the terminal continued to grow, reaching 257,045 units handled, an increase of almost 19% as compared to 2012, when we handled 216,460 units. We also exported 116,830 tons of steel products, a difference of 40% compared to 83,466 tons in 2012.

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Our Cement Segment

Our cement segment is comprised of a cement plant in Volta Redonda, in the state of Rio de Janeiro, and a clinker plant in Arcos, in the state of Minas Gerais.

Production

The production process in our cement factory in Volta Redonda begins with the influx of raw materials: clinker, limestone, gypsum and slag. We consume clinker produced in our clinker plan in Arcos and eventually we will import clinker to supply demand. Limestone comes from Arcos by rail. Clinker is stored in a silo (capacity: 45,000 tons) and limestone in a warehouse (capacity: 10,000 tons). Slag is a by-product of iron and steel, produced in the blast furnace, and is also stored in the warehouse (capacity: 20,000 tons), arriving at the plant by road. CSN uses natural gypsum, from Ouricuri, in the state of Pernambuco, which arrives at the plant by truck and is stored in the warehouse (capacity: 10,000 tons).

All transportation of raw materials within the plant is carried out by conveyor belts, placing inputs in scales according to a predefined formula and delivering them to the mills. There are two grinding lines and each mill has a nominal capacity of 170 tons/h. Annual plant capacity is 2.4 million tons of cement. The mill has a hydraulic roller system, which uses pressure to grind the layer of material on the turntable. Hot gas, derived from the combustion of natural gas or petroleum coke, is used in the mills to dry materials.

The type of cement we produce is CP III-40 RS (Sulfator resistant), which is then taken through a bucket elevator to be stored in silos. The plant has four silos, two of them with 10,000 tons of capacity and two with 5,000 tons of capacity. Cement can be shipped in bagged and bulk forms. We have two baggers with 12 filling nozzles (nominal capacity of 3600 bags/hour) and two palletizers for bagging cement.

Our Energy Segment

Our energy segment is comprised of generation plants and is aimed at enabling us to maintain our self-sufficiency in energy, reducing our production cost and our exposure to fluctuations or availability of certain energy sources.

Our energy related assets include:

Thermoelectric Co-Generation Power Plant

We completed the construction of a 235.2 MW thermoelectric co-generation power plant at the Presidente Vargas Steelworks in December 1999. Since October 2000, the plant has provided the steelworks with approximately 60% of the electric energy needed in its steel mills. Aside from operational improvements, the power plant supplies our strip mills with electric energy, processed steam and forced air from the blast furnaces, benefiting the surrounding environment through the elimination of flares that burn steel-processing gases into the atmosphere.

Itá Hydroelectric Facility

Tractebel and CSN each own 48.75% of ITASA, a special-purpose company formed for the purpose of owning and operating, under a 30-year concession granted in 2000 and renewable for an equal term, 60.5% of the Itá hydroelectric facility on the Uruguay river in Southern Brazil. Companhia de Cimento Itambé, or Itambé, owns the remaining 2.5% of ITASA. Tractebel directly owns the remaining 39.5% of the Itá hydroelectric facility.

The power facility was built using a project finance structure with an investment of approximately U.S.$860 million. The long-term financing for the project was closed in March 2001 and consisted of U.S.$78 million in debentures issued by ITASA, a U.S.$144 million loan from private banks and U.S.$116 million of direct financing from BNDES, all of which are due by 2013. The sponsors of the project have invested approximately U.S.$306 million in this project.

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Itá has an installed capacity of 1,450 MW, with a firm guaranteed output of 668 MW, and became fully operational in March 2001.

We and the other shareholders of ITASA have the right to take our pro rata share (proportional to our ownership interest in the project) of Itá’s output pursuant to 30-year power purchase agreements at a fixed price per megawatt hour, adjusted annually for inflation. Since October 2002, we have been using our entire Itá take internally.

Igarapava Hydroelectric Facility

We own 17.9% of a consortium that built and has the right to operate for 30 years the Igarapava hydroelectric facility. Other consortium members are Vale, Companhia Mineira de Metais, Votorantim Metais Zinco, AngloGold Ashanti Mineração Ltda., and Companhia Energética de Minas Gerais, or CEMIG. The plant has  an installed capacity of 210 MW, corresponding to 136 MW of firm guaranteed output as of December 31, 2012. We have been using part of our 23 MW take from Igarapava to supply energy to the Casa de Pedra and Arcos mines.

Marketing Organization and Strategy

Flat Steel

Our steel products are sold both domestically and abroad as a main raw material for several different manufacturing industries, including the automotive, home appliance, packaging, construction and steel processing industries.

Our sales approach is to establish brand loyalty and achieve a reputation for quality products by developing relationships with our clients and focusing on their specific needs, providing tailor-made solutions for each of our clients.

Our commercial area is responsible for sales of all of our products. This area is divided into two major teams, one focused on international sales and the other on domestic sales. The domestic market oriented sales team is divided into seven market segments: Packaging, Distribution Network, Automotive Industry (Automakers and Auto Parts), Home Appliances, Original Equipment Manufacturer, or OEM, Construction and Pipes. The commercial area also has a team called “Special Sales” which is responsible for selling all the process residues, such as blast furnace slag, pitch and ammonia, which are widely used as inputs in chemical and cement industries.

The Distribution Network division is responsible for supplying large steel processors and distributors. Besides the independent distributors, CSN also has its own distributor, called Prada Distribuição. The Pipes division supplies oil and gas pipe manufacturers as well as some industries that produce small diameter pipe and light profiles. The Packaging unit acts in an integrated way with suppliers, representatives of the canning industry and distributors to respond to customer needs for finished-products. The Automotive unit is supplied by a specialized mill, CSN Porto Real, and also by a portion of the galvanized material produced at Presidente Vargas Steelworks, benefitting from a combined sales strategy.

In 2013, about 66% of our domestic sales were made through our own sales force directly to customers. The remaining sales were to independent distributors and Prada Distribuição for subsequent resale to smaller clients.

Historically, our export sales were made primarily through international brokers. However, as part of our strategy to establish direct, longer-term relationships with end-users, we have decreased our reliance on such brokers. We have focused our international sales on more profitable markets in order to maximize revenues and shareholder returns.

All of our sales are on an order-by-order basis and have an average delivery time of 45 days. As a result, our production levels closely reflect our order log book status. We forecast sales trends in both the domestic and export markets based on the historical data available and the general economic outlook for the near future. We have our own data systems to remain informed of worldwide and Brazilian market developments. Further, our management believes that one of the keys to our success is maintaining a presence in the export market. Such presence gives us the flexibility to shift between domestic and export markets, thereby allowing us to maximize our profitability.

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Unlike with other commodity products, there is no exchange trading of steel, or uniform pricing, as wide differences exist in terms of size, quality and specifications. In general, exports are priced based on international spot prices of steel at the time of sale in U.S. dollars or Euros, depending on the destination. Sales are normally paid up front, or within 14 or 28 days, and, in the case of exports, usually backed by a letter of credit and an insurance policy. Sales are made primarily on cost and freight terms.

Sales by Geographic Region

In 2013, we sold steel products to customers in Brazil as well as to customers in 32 other countries. The fluctuations in the portion of total sales assigned to domestic and international markets, which can be seen in the table below, reflect our ability to adjust sales in light of variations in the domestic and international economies, as well as steel demand and prices, both domestically and abroad.

The two main export markets for our products are Latin America and Europe, representing 36% and 28%, respectively, of our export sales volume in 2013.

In North America, we take advantage of our subsidiary CSN LLC, which acts as a commercial channel for our products. In order to gain a cost advantage among our U.S. competitors, CSN is able to export hot-rolled to CSN LLC which is then processed and transformed into more value-added products at CSN LLC’s plant, such as cold-rolled coil and galvanized. Moreover, we are able to export cold-rolled coils which can be directly sold or processed by CSN LLC in order to manufacture galvanized products.

CSN – Sales of Steel Products by Destination

(In thousands of metric tons and millions of R$)

 

2013

2012

2011

 

Tons

% of Total

Net Operating Revenues(2)

% of Total

Tons

% of Total

Net Operating Revenues(2)

% of Total

Tons

% of Total

Net Operating Revenues(2)

% of Total

Brazil

4,650

76.0%

9,529

78.5%

4,495

77.1%

8,338

78.5%

4,216

86.1%

8,033

86.8%

Export

1,467

24.0%

2,603

21.5%

1,334

22.9%

2,278

21.5%

680

13.9%

1,219

13.2%

Total

6,117

100.0%

12,132

100%

5,829