Creation, innovation and Entrepreneurship
一、个人基本信息
姓名:万亮
性别:男
职称:特聘副研究员/副教授
电子邮箱:liangwan@whu.edu.cn
二、教育背景
2000/09 – 2004/06 华中科技大学,材料科学与工程学院,工学学士
2004/09 – 2011/06 中国科学院金属研究所,沈阳材料科学国家(联合)实验室,工学博士
三、工作经历
2018/03 –至今 武汉大学,皇冠新体育app,特聘副研究员
2016/04 – 2018/04 日本大阪大学,机械与生物工程系,特任研究员
2013/07 – 2016/07 西安交通大学,材料科学与工程学院,讲师
2011/07 – 2013/06 西安交通大学,材料科学与工程学院,博士后
四、研究方向
计算材料学:采用原子、电子层次材料计算模拟方法对材料成份、结构与性能关系进行研究。
具体研究课题包括:
金属材料氢环境失效机理与抗氢脆材料设计
跨时间尺度加速分子动力学模拟方法研究与开发
薄膜生长动力学与缺陷控制
五、主讲课程
《材料科学与工程基础概论》、《材料模拟与计算》
六、代表性科研论文
[1] L. Wan*, W.T. Geng, A. Ishii, J.-P. Du, Q. Mei, N. Ishikawa, H. Kimizuka, S. Ogata*, Hydrogen embrittlement controlled by reaction of dislocation with grain boundary in alpha-iron, International Journal of Plasticity 112 (2019) 206-219.
[2] W.T. Geng,L. Wan, J.-P. Du, A. Ishii, N. Ishikawa, H. Kimizuka, S. Ogata*, Hydrogen bubble nucleation in α-iron, Scripta Materialia 134 (2017) 105-109.
[3] L. Wan*, A. Ishii, J.-P. Du, W.-Z. Han, Q. Mei, S. Ogata*, Atomistic modeling study of a strain-free stress driven grain boundary migration mechanism, Scripta Materialia 134 (2017) 52-56.
[4] J.-P. Du, Y.-J. Wang, Y.-C. Lo,L. Wan, S. Ogata*, Mechanism transition and strong temperature dependence of dislocation nucleation from grain boundaries: An accelerated molecular dynamics study, Physical Review B 94(10) (2016) 104110.
[5] M.-S. Ding, J.-P. Du,L. Wan, S. Ogata, L. Tian, E. Ma, W.-Z. Han*, J. Li*, Z.-W. Shan*, Radiation-induced helium nanobubbles enhance ductility in submicron-sized single-crystalline copper, Nano letters 16(7) (2016) 4118-4124.
[6] L. Wan*, W. Han, K. Chen, Bi-crystallographic lattice structure directs grain boundary motion under shear stress, Scientific reports 5 (2015) 13441.
[7] B.-Y. Liu,L. Wan, J. Wang, E. Ma, Z.-W. Shan*, Terrace-like morphology of the boundary created through basal-prismatic transformation in magnesium, Scripta Materialia 100 (2015) 86-89.
[8] L. Wan*, J. Li*, Shear responses of [-110]-tilt {1 1 5}/{1 1 1} asymmetric tilt grain boundaries in fcc metals by atomistic simulations, Modelling and Simulation in Materials Science and Engineering 21(5) (2013) 055013.
[9] L. Wan*, S. Wang, Shear response of the Σ9⟨110⟩{221} symmetric tilt grain boundary in fcc metals studied by atomistic simulation methods, Physical Review B 82(21) (2010).
[10] L. Wan*, S. Wang, Shear response of the Σ11,⟨1 1 0⟩{1 3 1} symmetric tilt grain boundary studied by molecular dynamics, Modelling and Simulation in Materials Science and Engineering 17(4) (2009) 045008.
欢迎具有材料、物理、化学、机械、土木等专业背景,有志从事材料计算模拟研究的学生加入本课题组!