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Ultrafine Grained HSLA Steels for Cold Forming 被引量:7

Ultrafine Grained HSLA Steels for Cold Forming
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摘要 The industrial level production of ultrafine grained (or ultrafine ferrite) ferrous alloys was investigated through three examples of steels that complied with the EN 10149-2 Euronorm and were produced by advanced con- trolled hot rolling techniques. The steel samples were tension tested and chemically analyzed, and the microstructure was evaluated through quantitative metallographic techniques to determine parameters such as yield stress, amount of microalloying elements, strain hardening coefficient, grain size, and grain size distribution. These steels were micro- alloyed with Ti, Nb, and Mn with ASTM grain sizes of approximately 13--15. The careful control of chemical com- position and deformation during production, giving a specific attention to the deformation sequences, austenite non- reerystallization temperatures and allotropic transformations during cooling, are indispensable to obtain steels with an adequate strain hardening coefficient that allows cold working operations such as bending, stretching or drawing. The industrial level production of ultrafine grained (or ultrafine ferrite) ferrous alloys was investigated through three examples of steels that complied with the EN 10149-2 Euronorm and were produced by advanced con- trolled hot rolling techniques. The steel samples were tension tested and chemically analyzed, and the microstructure was evaluated through quantitative metallographic techniques to determine parameters such as yield stress, amount of microalloying elements, strain hardening coefficient, grain size, and grain size distribution. These steels were micro- alloyed with Ti, Nb, and Mn with ASTM grain sizes of approximately 13--15. The careful control of chemical com- position and deformation during production, giving a specific attention to the deformation sequences, austenite non- reerystallization temperatures and allotropic transformations during cooling, are indispensable to obtain steels with an adequate strain hardening coefficient that allows cold working operations such as bending, stretching or drawing.
作者 R González J O García M A Barbés M J Quintana L F Verdeja J I Verdeja
机构地区 School of Engineering ETSIMO
出处 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2010年第10期50-56,共7页
关键词 ultrafine steel METALLOGRAPHY strain hardening Euronorm ultrafine steel metallography strain hardening Euronorm
分类号 TG335.11 [金属学及工艺—金属压力加工]
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参考文献23

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同被引文献64

  • 1张爱文,郑磊.汽车用低合金高强度钢成分及控冷工艺[J].机械工程材料,2006,30(12):11-13. 被引量:14
  • 2Tadashi Furuhara. Special Issue on Ultrafine Grained Steels[MJ.Japan: ISU International, 2008.
  • 3Eager T. The Quiet Revolution in Materials Manufacturing and Production[J].Journal of Metals, 1998, 50(4): 19.
  • 4Vander Voort , Metallography G F. Principles and Practice[MJ. Ohio: ASM International, 1999.
  • 5Morris P, BeynonJ, Ridal K. Advances in the Hot Rolling of Steels[J]. Ironmaking and Steelmaking, 2004, 310): 8.
  • 6Beladi H, Kelly G L, Hodgson P D. The Effect of Multiple Deformations on the Formation of Ultrafine Grained Steels[J]. Metallurgical and Materials Transactions, 2007, 38A (3): 450.
  • 7Beladi H, Kelly G L, Hodgson P D. Ultrafine Grained Struc?ture Formation in Steels Using Dynamic Strain Induced Trans?formation Processing[J]. International Material Review, 2007,52(1): 14.
  • 8Tsuji N, Ito I, Saito Y, et al. Strength and Ductility of Ultra?fine Grained Aluminum and Iron Produced by ARB and Annea?ling DJ. Scripta Materialia , 2002, 47(2): 893.
  • 9Sakai T, Belyakov A, Miura H. Ultrafine Grain Formation in Ferritic Stainless Steel During Severe Plastic Deformation[J]. Metallurgical and Materials Transactions, 2008, 39A ( 9 ) : 2206.
  • 10Okitsu y, Takata N, Tsuji N. A New Route to Fabricate Ul?trafine Grained Structures in Carbon Steels Without Severe Plastic Deformation[J]. Scripta Materialia, 2009, 60 (2) : 76.

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Journal of Iron and Steel Research International
2010年 第10期

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