Final Results of Anti-Circumvention Review of Antidumping Order: Corrosion-Resistant Carbon Steel Flat Products From Japan

AGENCY:

Import Administration, International Trade Administration, Department of Commerce.

ACTION:

Notice of Final Results of Anti-Circumvention Review of Antidumping Order: Corrosion-Resistant Carbon Steel Flat Products from Japan.

SUMMARY:

On April 21, 2003, the Department of Commerce (“the Department”) published in the Federal Register the preliminary results of the anti-circumvention review of the antidumping order on certain corrosion-resistant carbon steel flat products from Japan. See Notice of Preliminary Results of Anti-Circumvention Review of Antidumping Order: Corrosion-Resistant Carbon Steel Flat Products from Japan, 68 FR 19499 (April 21, 2003) (“Preliminary Results”). Based on the comments received, we have not changed our results from the Preliminary Results.

EFFECTIVE DATE:

June 5, 2003.

FOR FURTHER INFORMATION CONTACT:

Catherine Bertrand or James Doyle, Import Administration, International Trade Administration, U.S. Department of Commerce, 14th Street and Constitution Avenue, NW., Washington, DC 20230; telephone: (202) 482-3207 and (202) 482-0159, respectively.

SUPPLEMENTARY INFORMATION:

Background

On April 21, 2003, the Department published in the Federal Register the Preliminary Results. We invited parties to comment on our Preliminary Results. On May 5, 2003, we received comments from respondents Nippon Steel Corporation (“NSC”), and NKK Steel Corporation (“NKK”). We received no comments or rebuttal comments from any other parties.

Scope of the Order

The scope of this order is as follows: The products covered by the antidumping duty order include flat-rolled carbon steel products, of rectangular shape, either clad, plated, or coated with corrosion-resistant metals such as zinc, aluminum, or zinc-, aluminum-, nickel- or iron-based alloys, whether or not corrugated or painted, varnished or coated with plastics or other nonmetallic substances in addition to the metallic coating, in coils (whether or not in successively superimposed layers) and of a width of 0.5 inch or greater, or in straight lengths which, if of a thickness less than 4.75 millimeters, are of a width of 0.5 inch or greater and which measures at least 10 times the thickness or if of a thickness of 4.75 millimeters or more are of a width which exceeds 150 millimeters and measures at least twice the thickness, as currently classifiable in the HTSUS under item numbers 7210.30.0030, 7210.30.0060, 7210.41.0000, 7210.49.0030, 7210.49.0090, 7210.61.0000, 7210.69.0000, 7210.70.6030, 7210.70.6060, 7210.70.6090, 7210.90.1000, 7210.90.6000, 7210.90.9000, 7212.20.0000, 7212.30.1030, 7212.30.1090, 7212.30.3000, 7212.30.5000, 7212.40.1000, 7212.40.5000, 7212.50.0000, 7212.60.0000, 7215.90.1000, 7215.90.3000, 7215.90.5000, 7217.20.1500, 7217.30.1530, 7217.30.1560, 7217.90.1000, 7217.90.5030, 7217.90.5060, 7217.90.5090. Included in this order are corrosion-resistant flat-rolled products of non-rectangular cross-section where such cross-section is achieved subsequent to the rolling process (i.e., products which have been “worked after rolling”)—for example, products which have been beveled or rounded at the edges.

Excluded from this order are flat-rolled steel products either plated or coated with tin, lead, chromium, chromium oxides, both tin and lead (“terne plate”), or both chromium and chromium oxides (“tin-free steel”), whether or not painted, varnished or coated with plastics or other nonmetallic substances in addition to the metallic coating.

Also excluded from this order are clad products in straight lengths of 0.1875 inch or more in composite thickness and of a width which exceeds 150 millimeters and measures at least twice the thickness.

Also excluded from this order are certain clad stainless flat-rolled products, which are three-layered corrosion-resistant carbon steel flat-rolled products less than 4.75 millimeters in composite thickness that consist of a carbon steel flat-rolled product clad on both sides with stainless steel in a 20%-60%-20% ratio.

Also excluded from this order are certain corrosion-resistant carbon steel flat products meeting the following specifications: (1) Widths ranging from 10 millimeters (0.394 inches) through 100 millimeters (3.94 inches); (2) thicknesses, including coatings, ranging from 0.11 millimeters (0.004 inches) through 0.60 millimeters (0.024 inches); and (3) a coating that is from 0.003 millimeters (0.00012 inches) through 0.005 millimeters (0.000196 inches) in thickness and that is comprised of either two evenly applied layers, the first layer consisting of 99% zinc, 0.5% cobalt, and 0.5% molybdenum, followed by a layer consisting of chromate, or three evenly applied layers, the first layer consisting of 99% zinc, 0.5% cobalt, and 0.5% molybdenum followed by a layer consisting of chromate, and finally a layer consisting of silicate.

Also excluded from this order are carbon steel flat products measuring 1.84 millimeters in thickness and 43.6 millimeters or 16.1 millimeters in width consisting of carbon steel coil (SAE 1008) clad with an aluminum alloy that is balance aluminum, 20% tin, 1% copper, 0.3% silicon, 0.15% nickel, less than 1% other materials and meeting the requirements of SAE standard 783 for Bearing and Bushing Alloys.

Also excluded from this order are carbon steel flat products measuring 0.97 millimeters in thickness and 20 millimeters in width consisting of carbon steel coil (SAE 1008) with a two-layer lining, the first layer consisting of a copper-lead alloy powder that is balance copper, 9% to 11% tin, 9% to 11% lead, less than 1% zinc, less than 1% other materials and meeting the requirements of SAE standard 792 for Bearing and Bushing Alloys, the second layer consisting of 45% to 55% lead, 38% to 50% PTFE, 3% to 5% molybdenum disulfide and less than 2% other materials.

Also excluded from this order are doctor blades meeting the following specifications: Carbon steel coil or strip, plated with nickel phosphorous, having a thickness of 0.1524 millimeters (0.006 inches), a width between 31.75 millimeters (1.25 inches) and 50.80 millimeters (2.00 inches), a core hardness between 580 to 630 HV, a surface hardness between 900-990 HV; the carbon steel coil or strip consists of the following elements identified in percentage by weight: 0.90% to 1.05% carbon; 0.15% to 0.35% silicon; 0.30% to 0.50% manganese; less than or equal to 0.03% of phosphorous; less than or equal to 0.006% of sulfur; other elements representing 0.24%; and the remainder of iron.

Also excluded from this order are products meeting the following specifications: Carbon steel flat products measuring 1.64 millimeters in thickness and 19.5 millimeters in width consisting of carbon steel coil (SAE 1008) with a lining clad with an aluminum alloy that is balance aluminum; 10 to 15% tin; 1 to 3% lead; 0.7 to 1.3% copper; 1.8 to 3.5% silicon; 0.1 to 0.7% chromium, less than 1% other materials and meeting the requirements of SAE standard 783 for Bearing and Bushing Alloys.

Also, excluded from this order are products meeting the following specifications: Carbon steel coil or strip, measuring 1.93 millimeters or 2.75 millimeters (0.076 inches or 0.108 inches) in thickness, 87.3 millimeters or 99 millimeters (3.437 inches or 3.900 inches) in width, with a low carbon steel back comprised of: Carbon under 8%, manganese under 0.4%, phosphorous under 0.04%, and sulfur under 0.05%; clad with aluminum alloy comprised of: 0.7% copper, 12% tin, 1.7% lead, 0.3% antimony, 2.5% silicon, 1% maximum total other (including iron), and remainder aluminum.

Also excluded from this order are products meeting the following specifications: Carbon steel coil or strip, clad with aluminum, measuring 1.75 millimeters (0.069 inches) in thickness, 89 millimeters or 94 millimeters (3.500 inches or 3.700 inches) in width, with a low carbon steel back comprised of: Carbon under 8%, manganese under 0.4%, phosphorous under 0.04%, and sulfur under 0.05%; clad with aluminum alloy comprised of: 0.7% copper, 12% tin, 1.7% lead, 2.5% silicon, 0.3% antimony, 1% maximum total other (including iron), and remainder aluminum.

Also excluded from this order are products meeting the following specifications: Carbon steel coil or strip, measuring a minimum of and including 1.10mm to a maximum of and including 4.90mm in overall thickness, a minimum of and including 76.00mm to a maximum of and including 250.00mm in overall width, with a low carbon steel back comprised of: Carbon under 0.10%, manganese under 0.40%, phosphorous under 0.04%, sulfur under 0.05%, and silicon under 0.05%; clad with aluminum alloy comprised of: Under 2.51% copper, under 15.10% tin, and remainder aluminum as listed on the mill specification sheet.

Also excluded from this order are products meeting the following specifications: (1) Diffusion annealed, non-alloy nickel-plated carbon products, with a substrate of cold-rolled battery grade sheet (“CRBG”) with both sides of the CRBG initially electrolytically plated with pure, unalloyed nickel and subsequently annealed to create a diffusion between the nickel and iron substrate, with the nickel plated coating having a thickness of 0-5 microns per side with one side equaling at least 2 microns; and with the nickel carbon sheet having a thickness of from 0.004” (0.10mm) to 0.030” (0.762mm) and conforming to the following chemical specifications (%): C ≤ 0.08; Mn ≤ 0.45; P ≤ 0.02; S ≤ 0.02; Al ≤ 0.15; and Si ≤ 0.10; and the following physical specifications: Tensile = 65 KSI maximum; Yield = 32-55 KSI; Elongation = 18% minimum (aim 34%); Hardness = 85-150 Vickers; Grain Type = Equiaxed or Pancake; Grain Size (ASTM) = 7-12; Delta r value = aim less than ±0.2; Lankford value = ≥1.2.; and (2) next generation diffusion-annealed nickel plate meeting the following specifications: (a) Nickel-graphite plated, diffusion annealed, tin-nickel plated carbon products, with a natural composition mixture of nickel and graphite electrolytically plated to the top side of diffusion annealed tin-nickel plated carbon steel strip with a cold rolled or tin mill black plate base metal conforming to chemical requirements based on AISI 1006; having both sides of the cold rolled substrate electrolytically plated with natural nickel, with the top side of the nickel plated strip electrolytically plated with tin and then annealed to create a diffusion between the nickel and tin layers in which a nickel-tin alloy is created, and an additional layer of mixture of natural nickel and graphite then electrolytically plated on the top side of the strip of the nickel-tin alloy; having a coating thickness: top side: nickel-graphite, tin-nickel layer ≥ 1.0 micrometers; tin layer only ≥ 0.05 micrometers, nickel-graphite layer only > 0.2 micrometers, and bottom side: nickel layer ≥ 1.0 micrometers; (b) nickel-graphite, diffusion annealed, nickel plated carbon products, having a natural composition mixture of nickel and graphite electrolytically plated to the top side of diffusion annealed nickel plated steel strip with a cold rolled or tin mill black plate base metal conforming to chemical requirements based on AISI 1006; with both sides of the cold rolled base metal initially electrolytically plated with natural nickel, and the material then annealed to create a diffusion between the nickel and the iron substrate; with an additional layer of natural nickel-graphite then electrolytically plated on the top side of the strip of the nickel plated steel strip; with the nickel-graphite, nickel plated material sufficiently ductile and adherent to the substrate to permit forming without cracking, flaking, peeling, or any other evidence of separation; having a coating thickness: top side: nickel-graphite, tin-nickel layer ≥ 1.0 micrometers; nickel-graphite layer ≥ 0.5 micrometers; bottom side: nickel layer ≥ 1.0 micrometers; (c) diffusion annealed nickel-graphite plated products, which are cold-rolled or tin mill black plate base metal conforming to the chemical requirements based on AISI 1006; having the bottom side of the base metal first electrolytically plated with natural nickel, and the top side of the strip then plated with a nickel-graphite composition; with the strip then annealed to create a diffusion of the nickel-graphite and the iron substrate on the bottom side; with the nickel-graphite and nickel plated material sufficiently ductile and adherent to the substrate to permit forming without cracking, flaking, peeling, or any other evidence of separation; having coating thickness: top side: nickel-graphite layer ≥ 1.0 micrometers; bottom side: nickel layer ≥ 1.0 micrometers; (d) nickel-phosphorous plated diffusion annealed nickel plated carbon product, having a natural composition mixture of nickel and phosphorus electrolytically plated to the top side of a diffusion annealed nickel plated steel strip with a cold rolled or tin mill black plate base metal conforming to the chemical requirements based on AISI 1006; with both sides of the base metal initially electrolytically plated with natural nickel, and the material then annealed to create a diffusion of the nickel and iron substrate; another layer of the natural nickel-phosphorous then electrolytically plated on the top side of the nickel plated steel strip; with the nickel-phosphorous, nickel plated material sufficiently ductile and adherent to the substrate to permit forming without cracking, flaking, peeling or any other evidence of separation; having a coating thickness: top side: nickel-phosphorous, nickel layer ≥ 1.0 micrometers; nickel-phosphorous layer ≥ 0.1 micrometers; bottom side: nickel layer ≥ 1.0 micrometers; (e) diffusion annealed, tin-nickel plated products, electrolytically plated with natural nickel to the top side of a diffusion annealed tin-nickel plated cold rolled or tin mill black plate base metal conforming to the chemical requirements based on AISI 1006; with both sides of the cold rolled strip initially electrolytically plated with natural nickel, with the top side of the nickel plated strip electrolytically plated with tin and then annealed to create a diffusion between the nickel and tin layers in which a nickel-tin alloy is created, and an additional layer of natural nickel then electrolytically plated on the top side of the strip of the nickel-tin alloy; sufficiently ductile and adherent to the substrate to permit forming without cracking, flaking, peeling or any other evidence of separation; having coating thickness: top side: nickel-tin-nickel combination layer ≥ 1.0 micrometers; tin layer only ≥ 0.05 micrometers; bottom side: nickel layer ≥ 1.0 micrometers; and (f) tin mill products for battery containers, tin and nickel plated on a cold rolled or tin mill black plate base metal conforming to chemical requirements based on AISI 1006; having both sides of the cold rolled substrate electrolytically plated with natural nickel; then annealed to create a diffusion of the nickel and iron substrate; then an additional layer of natural tin electrolytically plated on the top side; and again annealed to create a diffusion of the tin and nickel alloys; with the tin-nickel, nickel plated material sufficiently ductile and adherent to the substrate to permit forming without cracking, flaking, peeling or any other evidence of separation; having a coating thickness: top side: nickel-tin layer ≥ 1 micrometer; tin layer alone ≥ 0.05 micrometers; bottom side: nickel layer ≥ 1.0 micrometer.

Also excluded from this order are products meeting the following specifications: (1) Widths ranging from 10 millimeters (0.394 inches) through 100 millimeters (3.94 inches); (2) thicknesses, including coatings, ranging from 0.11 millimeters (0.004 inches) through 0.60 millimeters (0.024 inches); and (3) a coating that is from 0.003 millimeters (0.00012 inches) through 0.005 millimeters (0.000196 inches) in thickness and that is comprised of either two evenly applied layers, the first layer consisting of 99% zinc, 0.5% cobalt, and 0.5% molybdenum, followed by a layer consisting of phosphate, or three evenly applied layers, the first layer consisting of 99% zinc, 0.5% cobalt, and 0.5% molybdenum followed by a layer consisting of phosphate, and finally a layer consisting of silicate.

Also, excluded from this order are products meeting the following specifications: (1) Flat-rolled products (provided for in HTSUS subheading 7210.49.00), other than of high-strength steel, known as “ASE Iron Flash” and either: (A) Having a base layer of zinc-based zinc-iron alloy applied by hot-dipping and a surface layer of iron-zinc alloy applied by electrolytic process, the weight of the coating and plating not over 40 percent by weight of zinc; or (B) two-layer-coated corrosion-resistant steel with a coating composed of (a) a base coating layer of zinc-based zinc-iron alloy by hot-dip galvanizing process, and (b) a surface coating layer of iron-zinc alloy by electro-galvanizing process, having an effective amount of zinc up to 40 percent by weight, and (2) corrosion resistant continuously annealed flat-rolled products, continuous cast, the foregoing with chemical composition (percent by weight): carbon not over 0.06 percent by weight, manganese 0.20 or more but not over 0.40, phosphorus not over 0.02, sulfur not over 0.023, silicon not over 0.03, aluminum 0.03 or more but not over 0.08, arsenic not over 0.02, copper not over 0.08 and nitrogen 0.003 or more but not over 0.008; and meeting the characteristics described below: (A) Products with one side coated with a nickel-iron-diffused layer which is less than 1 micrometer in thickness and the other side coated with a two-layer coating composed of a base nickel-iron-diffused coating layer and a surface coating layer of annealed and softened pure nickel, with total coating thickness for both layers of more than 2 micrometers; surface roughness (RA-microns) 0.18 or less; with scanning electron microscope (SEM) not revealing oxides greater than 1 micron; and inclusion groups or clusters shall not exceed 5 microns in length; (B) products having one side coated with a nickel-iron-diffused layer which is less than 1 micrometer in thickness and the other side coated with a four-layer coating composed of a base nickel-iron-diffused coating layer; with an inner middle coating layer of annealed and softened pure nickel, an outer middle surface coating layer of hard nickel and a topmost nickel-phosphorus-plated layer; with combined coating thickness for the four layers of more than 2 micrometers; surface roughness (RA-microns) 0.18 or less; with SEM not revealing oxides greater than 1 micron; and inclusion groups or clusters shall not exceed 5 microns in length; (C) products having one side coated with a nickel-iron-diffused layer which is less than 1 micrometer in thickness and the other side coated with a three-layer coating composed of a base nickel-iron-diffused coating layer, with a middle coating layer of annealed and softened pure nickel and a surface coating layer of hard, luster-agent-added nickel which is not heat-treated; with combined coating thickness for all three layers of more than 2 micrometers; surface roughness (RA-microns) 0.18 or less; with SEM not revealing oxides greater than 1 micron; and inclusion groups or clusters shall not exceed 5 microns in length; or (D) products having one side coated with a nickel-iron-diffused layer which is less than 1 micrometer in thickness and the other side coated with a three-layer coating composed of a base nickel-iron-diffused coating layer, with a middle coating layer of annealed and softened pure nickel and a surface coating layer of hard, pure nickel which is not heat-treated; with combined coating thickness for all three layers of more than 2 micrometers; surface roughness (RA-microns) 0.18 or less; SEM not revealing oxides greater than 1 micron; and inclusion groups or clusters shall not exceed 5 microns in length.

Analysis of Comments Received

As stated above, the only comments the Department received on the Preliminary Results were from two respondents, NKK and Nippon, who each expressed support of the Department's analysis and decision. Since we received no comments in opposition to the Preliminary Results, we find it is not necessary to discuss these comments which were in support of the Department's decision.

Changes Since the Preliminary Results

As none of the submitted comments recommended changing the Preliminary Results and as the Department's analysis has not changed regarding any aspect of the Preliminary Results, we have not changed our results from the Preliminary Results.

Final Results

After our analysis, the Department found the following: (1) The increase of imports from Japan to the United States of corrosion-resistant steel (“CRS”) with boron-added was only temporary; (2) there were imports to the United States from Japan of boron-added CRS at the time the scope of the order was proposed by the domestic industry and published by the Department; (3) there are commercially and metallurgically viable reasons for the addition of boron in the context of the Continuous Annealing Process (“CAP”), which was used by the two respondents who exported the vast majority of the boron-added CRS to the United States; and (4) under the five factor test normally applied to determine if an article has been altered in form or appearance in minor respects so as to result in circumvention of the order, which includes an analysis of the overall physical characteristics, the expectations of the ultimate users, the use of the merchandise, the channels of marketing and the cost of modification, we found that, for companies that use the CAP, the addition of boron is not a minor alteration. Therefore, the evidence on the record of this inquiry, taken as a whole, leads to our final results that the United States imports of boron-added corrosion-resistant carbon steel flat products from the respondents were not minor alterations of the subject merchandise, within the meaning of section 781(c) of the Act, and are not circumventing the antidumping duty order on CRS from Japan.

We are issuing and publishing this notice in accordance with section 781(c) of the Act and §351.225(i) of the Department's regulations.