郭帅
个人简介
个人概况:
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姓名:郭帅 学历:博士研究生 职称:讲师 专业:金属材料工程 研究方向:激光增材制造、凝固理论 Email: shuaiguo@lcu.edu.cn |
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教学科研简介
教学:
线性代数、热处理原理与工艺、材料工程与安全、工程伦理学
科研:
目前作为主要成员参研国家重点研发计划一项,宁夏“十三五”重大科技项目一项,发表SCI 9篇。
教育经历:
2015/04/01-2019/06/25 西北工业大学&美国华盛顿大学-圣路易斯 国家公派联合培养博士 材料加工工程
2012/09/01-2015/03/31 西北工业大学 硕士 材料加工工程
代表性成果:(论文及专利等)
[1] S. Guo*, H. Chen, M. Wang, Research on the dislocation differences of CoCrFeMnNi with different local chemical orders during room temperature tensile test[J]. Journal of Alloys and Compounds, 2021, 868: 159215.
[2] S. Guo*, H. Chen, M. Wang, et al, Impact of local chemical order on the structure evolution of dual-phase high-entropy alloy during solidification process[J]. Vacuum, 2021, 184: 109953.
[3] M. Wang1*, S. Guo1*, X. Lin, W.D. Huang, Research on the nucleation and growth of high-entropy alloy[J]. Materials Letters, 2021, 285: 129206.
[4] S. Guo, M. Wang, X. Lin, W.D. Huang. Research on the crystallization behavior occurred in the process of preparing bulk metallic glass with selective laser melting[J]. Materials Research Express, 2019, 6(6): 066582.
[5] S. Guo, M. Wang, Y.Y. Zhang, et al. Region selectivity of nanometer scale crystallization behavior in metallic glass[J]. Journal of Materials Science, 2018, 55: 15643-15649.
[6] S. Guo, M. Wang, Z. Zhao, et al. Molecular dynamics simulation on the micro-structural evolution in heat-affected zone during the preparation of bulk metallic glasses with selective laser melting[J]. Journal of Alloys and Compounds, 2017, 697: 443-449.
[7] S. Guo, M. Wang , P.J. Zhao, et al. Molecular dynamics simulation of melt structure evolution during cooling process for lead on nickel substrate surface[J]. Materials Letters, 2016, 175: 20-22.
[8] Y.Y Zhang, X. Lin, S. Guo, et al. Crystallization behavior of Zr55Cu30Al10Ni5 amorphous alloys produced by selective laser melting of preannealed powders. Journal of Alloys and Compounds, 2020, 819: 153013.
[9] Z. Zhao, J. Chen, S. Guo, et al. Influence of α/β interface phase on the tensile properties of laser cladding deposited Ti–6Al–4V titanium alloy[J]. Journal of Materials Science & Technology, 2017, 33: 675-681.