The effect of deformation temperature on the recrystallization behavior of AISI 304 stainless steel

机译：变形温度对AISI 304不锈钢再结晶行为的影响

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This paper presents a study for constitutive equation over a wide range of temperatures (700～1100℃) when AISI 304 stainless steel undergoes large strain. Dependency of flow stress upon strain rate and temperature, is described by the hyperbolic sine form of the Arrhenius equation. By modifying the Voce's equation, a constitutive equation for the steel was obtained. The material constants required in the proposed constitutive equation have been obtained by a series of hot torsion tests. Also, in this work, we propose no-dynamic recrystallization temperature (Tndrx) for AISI 304 stainless steel. The Tndrx of the steel is found to be about 8551, which can be obtained from continuous cooling torsion (CCT) curve and electron back-scattered diffraction (EBSD) analysis. Results revealed the proposed constitutive equations could predict flow stress softening due to dynamic recrystallization, with an acceptable amount of error, when the steel undergoes large strain at a wide range of temperatures.

机译：本文对AISI 304不锈钢承受大应变时在宽温度范围（700〜1100℃）下的本构方程进行了研究。流动应力对应变率和温度的依赖性由阿伦尼乌斯方程的双曲正弦形式描述。通过修改Voce方程，可以得到钢的本构方程。建议的本构方程中所需的材料常数已通过一系列热扭转试验获得。另外，在这项工作中，我们提出了AISI 304不锈钢的无动态再结晶温度（Tndrx）。发现钢的Tndrx约为8551，可通过连续冷却扭力（CCT）曲线和电子背散射衍射（EBSD）分析获得。结果表明，当钢在宽温度范围内承受大应变时，所提出的本构方程可以预测由于动态再结晶引起的流应力软化，并且具有可接受的误差量。

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来源
《Pacific Rim International Conference on Advanced Materials and Processing(PRICM 5) pt.1; 20041102-05; Beijing(CN)》|2004年|P.161-164|共4页
会议地点 Beijing(CN)
作者
Sang-Jae An; Jae-Young An; Sung-Il Kim; Youngjae Kwon; Yeon-Chul Yoo;
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作者单位

Department of Materials Science and Engineering, Inha University, 253 Yonghyun-dong, Incheon 402-751, Korea;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
austenitic stainless steel; no-dynamic recrystallization temperature; constitutive equation;

机译：奥氏体不锈钢；无动态再结晶温度；本构方程;
入库时间 2022-08-26 14:09:15

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1. AISI304不锈钢管穿孔针挤压动态再结晶规律 [J] . 郭良刚, 董可可, 张保军, 中国有色金属学报（英文版） . 2012,第0z2期
2. Fatigue and cyclic deformation behavior of non- and boronized austenitic stainless steel AISI 304 at room and elevated temperatures [J] . Tharaphat Wiriyasaroj, Patiphan Juijerm, Berthold Scholtes, Sonklanakarin Journal of Science and Technology . 2019,第2期

机译：非硅化和含硼奥氏体不锈钢AISI 304在室温和高温下的疲劳和循环变形行为
3. Internal Friction on AISI 304 Stainless Steels with Low Tensile Deformations at Temperatures between−50 and 20∘C [J] . T. F. A.Santos, M. S.Andrade Advances in materials science and engineering . 2010,第3期

机译：在−50至20−C之间的温度下具有低拉伸变形的AISI 304不锈钢的内摩擦
4. Internal Friction on AISI 304 Stainless Steels with Low Tensile Deformations at Temperatures between -50 and 20℃ [J] . T. F. A. Santos, M. S. Andrade Advances in materials science and engineering . 2010,第1期

机译：在-50至20℃的温度下具有低拉伸变形的AISI 304不锈钢的内摩擦
5. The effect of deformation temperature on the recrystallization behavior of AISI 304 stainless steel [C] . Sang-Jae An, Jae-Young An, Sung-II Kim Pacific Rim International Conference on Advanced Materials and Processing . 2005

机译：变形温度对AISI 304不锈钢再结晶行为的影响
6. Experimental investigations of rate-dependent behavior of AISI Type 304 Stainless Steel at room and elevated temperatures. [D] . Ruggles, Marina B. 1987

机译：在室温和高温下AISI 304不锈钢的速率依赖性行为的实验研究。
7. Energy Coupling of Laser Radiation on AISI 304 Stainless Steel: Effect of High Temperatures and Surface Oxidation [O] . Dominik Hipp, Achim Mahrle, Eckhard Beyer 2019

机译：AISI 304不锈钢上激光辐射的能量耦合：高温和表面氧化的影响
8. The Rate Dependent Deformation Behavior of AISI Type 304 Stainless Steel at Room Temperature [O] . 2007

机译：AISI型304不锈钢在室温下的速率依赖性变形行为
9. Heat-to-Heat Variations in the Fatigue and Creep-Fatigue Behavior of AISI Type 304Stainless Steel,and the Fatigue Behavior of Type 308Stainless Steel Weld Material. [R] . brinkman, c. r. korth, g. e. 1974

机译：aIsI 304不锈钢疲劳和蠕变疲劳行为的热 - 热变化及308型不锈钢焊接材料的疲劳行为。

The effect of deformation temperature on the recrystallization behavior of AISI 304 stainless steel

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