王帅
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2018.06 – 至今 南方科技大学 助理教授2015.04 – 2018.06 威斯康辛大学麦迪逊分校 副研究员2014.03 – 2015.03 国际碳中和能源研究中心 博士后2013.12 – 2014.03 北海道大学 技术辅助员2010 – 2013 北海道大学,材料学 博士2007 – 2010 北京科技大学,材料物理与化学 硕士2003 – 2007 合肥工业大学,金属材料工程 学士研究领域
跨尺度力学行为,结合透射电镜学及原子模拟理论关联纳微尺度位错组织和力学性能变化(疲劳、蠕变、失效等),目前以增材制造(3D打印)材料为主要研究对象。通过对纳米及微米尺度下材料组织和应力演化的观察分析,力图阐明材料强化和材料失效过程中的根本机理,评估和预测材料在不同服役条件下的力学性能,为高性能新材料的选择和开发制造提供具有指导意义的物理模型近期论文
Shuai Wang*, Akihide Nagao, Petros Sofronis, and Ian M. Robertson*; Hydrogen-modified dislocation structures in a cyclically deformed ferritic-pearlitic low carbon steel; Acta Materialia; 144,164-176; 2018Shuai Wang*, Akihide Nagao, Kaveh Edalati, Zenji Horita, and Ian M. Robertson*; Influence of hydrogen on dislocation self-organization in Ni; Acta Materialia; 135, 96–102; 2017 Shuai Wang, May L. Martin, Ian M. Robertson*, and Petros Sofronis;Effect of hydrogen environment on the separation of Fe grain boundaries; Acta Materialia; 107, 279–288; 2016 Shuai Wang, May L. Martin, Petros Sofronis, Somei Ohnuki, Naoyuki Hashimoto, and Ian M. Robertson*; Hydrogen-induced intergranular failure of iron; Acta Materialia; 69, 275282; 2014Shuai Wang*, Naoyuki Hashimoto, Yongming Wang, and Somei Ohnuki; Activation volume and density of mobile dislocations in hydrogen charged Fe; Acta Materialia; 61 (13), 47344742; 2013Kelly E. Nygren, Shuai Wang, Kaila M. Bertsch, Hongbin Bei, Akihide Nagao, Ian M. Robertson*; Hydrogen embrittlement of the equi-molar FeNiCoCr alloy; Acta Materialia;157, 218–227; 2018K. E. Nygren, K. M. Bertsch, S. Wang, H. Bei, A. Nagao,I. M. Robertson*; Hydrogen embrittlement in compositionally complex FeNiCoCrMn FCC solid solution alloy; Current Opinion in Solid State and Materials Science; 22-1, 1-7; 2018Mo-Rigen He*, Shuai Wang, Shi Shi, Ke Jin, Hongbin Bei, Kazuhiro Yasuda, Syo Matsumura, Kenji Higashida, and Ian M. Robertson*;Mechanisms of radiation-induced segregation in CrFeCoNi-based single-phase concentrated solid solution alloys; Acta Materialia; 126, 182–193; 2017Shuai Wang*, Naoyuki Hashimoto, and Somei Ohnuki;Hydrogen-induced change in core structures of 110[111] edge and 110[111] screw dislocations in iron; Scientific Reports; 3, Article number: 2760; 2013 相关热点
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