Thermal stability of nanocrystalline layer prepared by surface mechanical attrition in 0Cr18Ni9Ti stainless steel

机译：表面机械磨损在0Cr18Ni9Ti不锈钢中制备的纳米晶层的热稳定性

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By means of surface mechanical attrition (SMA), a nanostructured surface layer was formed on a 0Cr18Ni9Ti austenite stainless steel plate. A strain-induced martensite transformation was observed during SMA treatment, and a single magnetic martensite phase layer with thickness of about 30 μm was gotten. The grain growth and phase transformations in the nanocrystalline layer are investigated during heating. The grain growth exponent for nanocrystalline polycrystalline steel is estimated. The kinetics mechanism governing the grain growth in the nanocrystalline layer is discussed. The martensite in the surface layer is quite stable and the temperature at which the reverse transformation of martensite to austenite starts during heating is about 500℃.

机译：借助于表面机械磨损（SMA），在0Cr18Ni9Ti奥氏体不锈钢板上形成了纳米结构表面层。在SMA处理过程中观察到应变诱导的马氏体相变，并获得了厚度约为30μm的单个磁性马氏体相层。在加热期间研究了纳米晶体层中的晶粒生长和相变。估计了纳米晶多晶钢的晶粒长大指数。讨论了控制纳米晶体层中晶粒长大的动力学机理。表层中的马氏体非常稳定，加热时马氏体开始向奥氏体反向转变的温度约为500℃。

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来源
《International Conference on Surface Engineering; 20041029-31; Shenzhen(CN)》|2004年|P.210-214|共5页
会议地点 Shenzhen(CN)
作者
WANG Hong-bin; WU Xiao-chun; XU Ling-yun;
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作者单位

School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类材料腐蚀与保护;
关键词
grain growth; phase transformation; surface mechanical attrition; surface nanocrystalline layer;

机译：晶粒生长;相变;表面机械磨损;表面纳米晶层;

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专利

1. 机械合金化制备纳米晶镁基合金的热稳定性 [J] . M. RAJABI, R. M. SEDIGHI, S. M. RABIEE 中国有色金属学报（英文版） . 2016,第002期
2. 机械合金化制备纳米晶镁基合金的热稳定性 [J] . M.RAJABI, R.M.SEDIGHI, S.M.RABIEE 中国有色金属学报：英文版 . 2016,第002期
3. Thermal stability of nanocrystalline layer prepared by surface mechanical attrition in 0Cr18Ni9Ti stainless steel [J] . WANG Hong-bin, WU Xiao-chun, XU Ling-yun 中国有色金属学报（英文版） . 2004,第0z1期

机译：表面机械磨损在0Cr18Ni9Ti不锈钢中制备的纳米晶层的热稳定性
4. Strain-induced refinement and thermal stability of a nanocrystalline steel produced by surface mechanical attrition treatment [J] . W.B. Liu, C. Zhang, Z.X. Xia, Materials Science and Engineering . 2013,第apra15期

机译：表面机械磨损处理产生的纳米晶钢的应变诱导细化和热稳定性
5. In-situ EBSD investigation of thermal stability of a 316L stainless steel nanocrystallized by Surface Mechanical Attrition Treatment [J] . Materials Letters . 2020,第Mara15期

机译：表面机械磨损处理对316L不锈钢纳米晶热稳定性的原位EBSD研究
6. Thermal stability of nanocrystalline layer prepared by surface mechanical attrition in 0Cr18Ni9Ti stainless steel [C] . WANG Hong-bin, WU Xiao-chun, XU Ling-yun, International Conference on Surface Engineering . 2004

机译：在0Cr18Ni9TI不锈钢中由表面机械磨损制备的纳米晶体层的热稳定性
7. Tribological behavior of nanocrystalline metals prepared by surface mechanical attrition treatment [D] . Frink, Michael 2009

机译：表面机械磨损处理制备的纳米晶金属的摩擦学行为
8. Microstructure Evolution and Mechanical Properties of Austenite Stainless Steel with Gradient Twinned Structure by Surface Mechanical Attrition Treatment [O] . Aiying Chen, Chen Wang, Jungan Jiang, 2021

机译：表面机械磨损处理与梯度孪晶结构奥氏体不锈钢的微观结构演化与力学性能
9. In-situ EBSD investigation of thermal stability of a 316L stainless steel nanocrystallized by Surface Mechanical Attrition Treatment [O] . Y. Wu, Z. Sun, F. Brisset, 2020

机译：原位EBSD对316L不锈钢纳米晶体的热稳定性的研究通过表面机械研磨处理

Thermal stability of nanocrystalline layer prepared by surface mechanical attrition in 0Cr18Ni9Ti stainless steel

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