Application of Recrystallization Texture Evolution Model to Type 430 Stainless-Steel Strip Production

Toshiharu Morimoto; Fuyuki Yoshida; Yuji Kusumoto

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Application of Recrystallization Texture Evolution Model to Type 430 Stainless-Steel Strip Production

机译：重结晶织构演化模型在430型不锈钢带钢生产中的应用

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The ridging phenomenon of type 430 stainless-steel originates from the texture due to crystal plasticity anisotropy. Thus, to predict the antiridging property, we must continuously analyze the hot-rolling, hot-rolling and annealing, cold-rolling, cold-rolling and annealing textures. However, it has been previously difficult to analyze the recrystallization texture. We thus developed a model to predict the recrystallization texture coupled with the Taylor rolling model. Furthermore, the ridging index was calculated in order to estimate the plasticity in type 430 stainless-steels. The plasticity prediction method was applied to type 430 stainless-steel strips rolled at a low temperature with a high reduction rate in an actual tandem hot strip mill.

机译：430型不锈钢的起皱现象起因于晶体塑性各向异性的组织。因此，要预测抗皱纹性能，我们必须不断分析热轧，热轧和退火，冷轧，冷轧和退火织构。但是，以前很难分析再结晶织构。因此，我们开发了一个模型来预测泰勒轧制模型的再结晶织构。此外，计算皱纹指数是为了估计430型不锈钢的可塑性。将可塑性预测方法应用于实际的串联热轧机中以较低的还原率在低温下轧制的430型不锈钢带。

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《Materials transactions》 |2012年第11期|共10页
作者
Toshiharu Morimoto; Fuyuki Yoshida; Yuji Kusumoto;
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正文语种 eng
中图分类冶金工业;
关键词
recrystallization texture; rolling texture; crystal plasticity; type 430 stainless-steel; microscopic slip;

机译：重结晶织构;轧制织构;晶体塑性;430型不锈钢;微观滑移;

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1. Application of Recrystallization Texture Evolution Model to Type 430 Stainless-Steel Strip Production [J] . Toshiharu Morimoto, Fuyuki Yoshida, Yuji Kusumoto Materials transactions . 2012,第11期

机译：重结晶织构演化模型在430型不锈钢带钢生产中的应用
2. Evolution of textures and microstructures in IF-steel sheets during continuous confined strip shearing and subsequent recrystallization annealing [J] . Jin YH, Huh MY, Chung YH Journal of Materials Science . 2004,第16a17期

机译：连续约束带钢剪切和随后的再结晶退火过程中IF钢板的组织和显微组织的演变
3. Evolution of textures and microstructures in IF-steel sheets during continuous confined strip shearing and subsequent recrystallization annealing [J] . Y. H. Jin, M. Y. Huh, Y. H. Chung Journal of Materials Science . 2004,第16a17期

机译：连续约束带钢剪切和随后的再结晶退火过程中IF钢板的组织和显微组织的演变
4. Texture evolution of ferritic (AISI 430) stainless steel strips during cold rolling, annealing and drawing [C] . A. Ferreira Filho, C. Herrera, N. B. de Lima, International Conference on Proceeding amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：铁素体（AISI 430）不锈钢带材在冷轧，退火和拉拔过程中的织构演变
5. Evolution of recrystallization textures in an aluminum alloy. [D] . Kashyap, Kishore T. 1991

机译：铝合金中再结晶织构的演变。
6. Evolution of Recrystallized Grain and Texture of Cold-Drawn Pure Mg Wire and Their Effect on Mechanical Properties [O] . Jiao Meng, Liuxia Sun, Yue Zhang, 2020

机译：冷拔纯镁丝再结晶晶粒和织构的演变及其对力学性能的影响
7. Evolução da textura cristalográfica de chapas de aço inoxidável ferrítico do tipo AISI 430 durante laminação a frio, recozimento e estampagem Crystallographic texture evolution of ferritic stainless steel strips (AISI 430) during cold rolling, annealing and drawing [O] . Antenor Ferreira Filho, Clara Herrera, Nelson Batista de Lima, 2008

机译：冷轧，退火和冲压过程中AISI 430铁素体不锈钢薄板的晶体织构的演变冷轧，退火和拉拔过程中铁素体不锈钢带材（AISI 430）的晶体织构的演化
8. Rate Theory Modeling of Defect Evolution under Cascade Damage Conditions: TheInfluence of Vacancy-Type Cascade Remnants and Application to the Defect Production Characterization by Microstructural Analysis [R] . Katoh, Y., Muroga, T., Kohyama, A., 1995

机译：级联损伤条件下缺陷演化的速率理论模型：空位型级联残余物的影响及其在缺陷生产表征中的微观结构分析

Application of Recrystallization Texture Evolution Model to Type 430 Stainless-Steel Strip Production

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