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Residual Stresses in Austenitic Stainless Steel due to High Strain Rate

机译：高应变速率导致奥氏体不锈钢的残余应力

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Austenitic stainless steel (SUS316L) was used as specimen material, and the plate specimens were deformed plastically with a wide range of strain rates (6.67×10~(-5)~ 6.70×l10~2/s). The residual micro-stress for each lattice plane was measured with hard synchrotron X-rays. The residual macro-stress due to tensile deformation depended on strain rate. The residual micro-stresses varied from tension to compression, depending on the diffraction elastic constant. The soft lattice plane had tensile residual stress, and the hard lattice plane had compressive residual stress. The higher the strain rate, the smaller the difference in residual micro-stresses. The residual micro-stresses of the surfaces peened with the laser-peening or water-jet-peening were examined. Both surfaces had exhibited large compressive residual stress. The residual micro-stress on the peened surfaces showed a tendency opposite to residual micro-stress due to tensile deformation.

机译：以奥氏体不锈钢（SUS316L）为材料，板状试样在较大的应变速率范围（6.67×10〜（-5）〜6.70×l10〜2 / s）下发生塑性变形。使用硬同步加速器X射线测量每个晶格平面的残余微应力。由于拉伸变形而产生的残余宏观应力取决于应变率。残余微应力从拉力到压缩力都不同，这取决于衍射弹性常数。软晶格平面具有拉伸残余应力，而硬晶格平面具有压缩残余应力。应变率越高，残余微应力的差异越小。检查了用激光喷丸或喷水喷丸处理后的表面残留的微应力。两个表面均表现出较大的压缩残余应力。锤击表面的残余微应力表现出与拉伸变形引起的残余微应力相反的趋势。

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来源
《Residual stresses VIII》|2010年|p.278-283|共6页
会议地点 Riva del Garda(IT);Riva del Garda(IT)
作者
Kenji Suzuki; Takahisa Shobu;
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作者单位

Department of Technology, Faculty of Education, Niigata University, lgarashi-2-no-cho, Nishi-ku, Niigata, 950-2181, Japan;

Quantum Beam Science Directorate, Japan Atomic Energy Agency, 1-1-1, Koto, Sayo, Hyogo, Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料试验;
关键词
residual micro-stress; austenitic stainless steel; strain rate; synchrotron; peening;

机译：残余微应力奥氏体不锈钢；应变率;同步加速器喷丸;

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1. Residual Stresses in Austenitic Stainless Steel due to High Strain Rate [J] . Kenji Suzuki, Takahisa Shobu Materials science forum . 2011,第期

机译：高应变速率导致奥氏体不锈钢的残余应力
2. Distortion and residual stresses in thick plate weld joint of austenitic stainless steel: Experiments and analysis [J] . Das Banik Sayantan, Kumar Suranjit, Singh Pawan Kumar, Journal of Materials Processing Technology . 2021,第1期

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3. Investigation on effect of thermal aging embrittlement on residual stresses of austenitic stainless steel repair welds in nuclear components subject to seismic loads [J] . Journal of Mechanical Science and Technology . 2020,第7期

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4. Assessment of Surface Residual Stresses Generated during Machining of Metastable Austenitic Stainless Steel using Acoustic Emission [C] . C. R. Ward, J. Lamb, R. Reuben, Anniversary international conference of the European society for precision engineering and nanotechnology . 2010

机译：利用声发射评估亚稳态奥氏体不锈钢加工过程中产生的表面残余应力
5. Residual Stresses Due to Circumferential Girth Welding of Austenitic Stainless Steel Pipes. [D] . Tarak, Farzan. 2013

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6. Compressive Behavior and Constitutive Model of Austenitic Stainless Steel S30403 in High Strain Range [O] . Yang Peng, Jiang Chu, Jun Dong 2018

机译：高应变范围奥氏体不锈钢S30403的压缩行为与本构模型。
7. Experimental Analysis of Residual Stresses in Samples of Austenitic Stainless Steel Welded on Martensitic Stainless Steel Used for Kaplan Blades Repairs [O] . Vasile Cojocaru, Viorel Constantin Campian, Calin-Octavian Miclosina 2011

机译：用于卡普兰叶片修复的马氏体不锈钢焊接奥氏体不锈钢样品残余应力的实验分析

Residual Stresses in Austenitic Stainless Steel due to High Strain Rate

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