本文主要研究内容
作者(2019)在《Twinning, grain orientation, and texture variations in Mg alloy processed by pre-rolling》一文中研究指出:A pre-rolling(PR) process with a small pre-strain was applied along the transverse direction(TD) and the extrusion direction(ED) of non-basal and basal textured AZ61 Mg alloys at room temperature to investigate the induced twinning behavior. The microstructural evolution of the alloys was used to evaluate the grain-boundary effect in terms of the texture variation. The results demonstrated that■ extension twinning was introduced by the PR process and that the volume fraction of twins increased with increasing thickness reduction. The subdivision of grains via twinning induced grain reorientation that generated a prominent basal texture with the c-axis parallel to the normal direction(ND) after PR. The textured Mg alloy with this c-axis//TD feature can promote twinning activity. The twinning performance was critical to initiate plastic deformation, therefore to determine deformation behavior at room temperature. The deformation mechanism was also addressed related to the extension twin lamellae.
Abstract
A pre-rolling(PR) process with a small pre-strain was applied along the transverse direction(TD) and the extrusion direction(ED) of non-basal and basal textured AZ61 Mg alloys at room temperature to investigate the induced twinning behavior. The microstructural evolution of the alloys was used to evaluate the grain-boundary effect in terms of the texture variation. The results demonstrated that■ extension twinning was introduced by the PR process and that the volume fraction of twins increased with increasing thickness reduction. The subdivision of grains via twinning induced grain reorientation that generated a prominent basal texture with the c-axis parallel to the normal direction(ND) after PR. The textured Mg alloy with this c-axis//TD feature can promote twinning activity. The twinning performance was critical to initiate plastic deformation, therefore to determine deformation behavior at room temperature. The deformation mechanism was also addressed related to the extension twin lamellae.
论文参考文献
[1].Dynamic deformation behavior and microstructural evolution during high-speed rolling of Mg alloy having non-basal texture[J]. Sang-Hoon Kim,Jeong Hun Lee,Chong Soo Lee,Jonghun Yoon,Sung Hyuk Park. Journal of Materials Science & Technology.2019(04)[2].Formation of Copper Type Texture in Cold Rolled Aluminum Sheet[J]. WeiminMAO. Journal of Materials Science & Technology.2002(05)[3].Tensile properties of AZ31 sheet/bar and effects of texture[J]. 周清,G.ITOH,Y.MOTOHASHI. Transactions of Nonferrous Metals Society of China.2006(S3)[4].COLD ROLLING AND RECRYSTALLIZATION TEXTURE OF CROSS SHEAR ROLLED COMMERCIAL COPPER[J]. LIU Yansheng ZHAO Xiang LIANG Zhide Northeast University of Technology,Shenyang,China. Acta Metallurgica Sinica(English Edition).1990(12)[5].Simulation of texture evolution and deformation mechanism in Mg-3Al-1Zn alloy during uniaxial compression[J]. YAO JinYi,WANG BingShu,DENG LiPing,CHAPUIS Adrien,LI Qiang,LIU Qing. Science China(Technological Sciences).2015(12)[6].Mechanism of surface texture evolution in pure copper strips subjected to double rolling[J]. Xiyong Wang,Xuefeng Liu,Jianxin Xie. Progress in Natural Science:Materials International.2014(01)[7].Mechanical performance and texture characteristic of an IF steel containing Nb and Ti by double cold rolling[J]. Ling-yun Wang1) ,Peng Zhang1,2) ,Wei Li1) ,and Guang-jie Huang1) 1) College of Materials Science and Engineering,Chongqing University,Chongqing 400030,China 2) Technology Institute of Sichuan Chuanwei Group Co. Ltd.,Weiyuan 642400,China. International Journal of Minerals Metallurgy and Materials.2009(01)[8].EFFECT OF CHEMICAL COMPOSITION AND PROCESSES ON THE TEXTURE OF HOT-ROLLED DEEP DRAWING STEEL SHEET[J]. Y. Chen, X. Chen, C.Y. Li, X.Y. Li and Y.L. KangTechnical Center of Wuhan Iron and Steel Group Co., Wuhan 430080, ChinaWuhan University of Science and Technology, Wuhan 430080, ChinaCentral General Iron and Steel Research Institute, Beijing 100081, ChinaU. Acta Metallurgica Sinica(English Edition).2002(03)[9].Microstructure and texture evolution of 6016 aluminum alloy during hot compressing deformation[J]. Ji-Xiang Zhang,Ke-Long Zhang,Yun-Teng Liu,Li Zhong. Rare Metals.2014(04)[10].Analysis of Micro-texture during Secondary Recrystallization in a Hi-B Electrical Steel[J]. Mengqi Yan1), Hao Qian1), Ping Yang1), Weimin Mao1), Qiwu Jian2) and Wenxu Jin2) 1) School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China 2) Cold Rolling Silicon Steel Division, Anshan Steel Group, Anshan 114021, China. Journal of Materials Science & Technology.2011(11)
论文详细介绍
论文作者分别是来自Progress in Natural Science:Materials International的,发表于刊物Progress in Natural Science:Materials International2019年02期论文,是一篇关于,Progress in Natural Science:Materials International2019年02期论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自Progress in Natural Science:Materials International2019年02期论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:Progress in Natural Science:Materials International2019年02期论文;
:Twinning, grain orientation, and texture variations in Mg alloy processed by pre-rolling论文
下载Doc文档