杨平
近期热点
资料介绍
个人简历
1982年及1986年毕业于北京钢铁学院(现北京科技大学)金属材料系金属学及热处理专业,分别获学士及硕士学位。1997年毕业于德国亚琛工业大学(RWTH Aachen)冶金系金属学与金属物理研究所,获博士学位。研究领域
金属形变、再结晶、相变过程中的晶体学现象及织构控制, EBSD技术的应用; 电工钢、高锰钢、钛合金等材料的组织结构表征及性能改善。"2012年北京市教学成果二等奖(基于《材料科学基础》课程的学生综合能力培养模式)(第一完成人);2009年宝钢优秀教师奖;2008年北京市教学成果一等奖(学生自主学习培养创新能力的新平台)(第一完成人); 2007年北京市教学名师; 2003年教育部一、三等奖各一项(高比容高压阳极用铝箔的研究)(第四、第三完成人)"近期论文
[1] R. Liang, P. Yang*, W. Mao. Cube texture evolution and magnetic properties of 6.5 wt% Si electrical steel fabricated by surface energy and three-stage rolling method. Journal of Magnetism and Magnetic Materials. 2018, 457: 38–45 [2] R. Liang, P. Yang*, W. Mao. Retaining {100} texture from initial columnar grains in 6.5 wt% Si electrical steels. Journal of Magnetism and Magnetic Materials. 2017, 441: 511-516 [3] J. Wang, P. Yang*, W. Mao. Retention and evolution of texture in an electrical steel under vacuum annealing. Journal of Materials Science. 2017, 52: 5462–5473 [4] J. Wang, P. Yang*, L. Zhang, W. Mao. Formation of a sharp {100}<011> texture in Fe-3%Si-1.7%Mn-0.05%C silicon steel sheets. Journal of Materials Science. 2016, 51: 10116–10126 [5] N. Zhang, P. Yang*, W. Mao. {001}<120>−{113}<361>recrystallization textures induced by initial {001} grains and related microstructure evolution in heavily rolled electrical steel. Materials Characterization. 2016, 119: 225–23 [6] N. Zhang, P. Yang* and W. Mao. Effect of rolling methods on microstructure, recrystallization texture and magnetic properties in a Fe-2.5%Si-0.5%Al non-oriented electrical steel. Materials Characterization. 2015, 108: 85–93 [7] H. Wang, P. Yang*, W. Mao, F. Lu. Effect of hot deformation of austenite on martensitic transformation in high manganese steel. Journal of alloy and compounds. 2013, 558: 26–33 相关热点