郭翔
- 教师拼音名称:Guo Xiang
- 性别:男
- 职称:副教授
- 所属院系:机械工程学院
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· G. Chen, J. Gao, Y. Cui(*), H. Gao, X. Guo(*), and S. Wu. Effects of strain rate on the low cycle fatigue behavior of AZ31B magnesium alloy processed by SMAT. Journal of Alloys and Compounds, 735(1), 536–546 (2018). Impact factor: 3.133 (2区SCI)
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· Q.D. Ouyang, A.K. Soh, G.J. Weng, L.L. Zhu, and X. Guo(*). The limit velocity and limit displacement of nanotwin-strengthened metals under ballistic impact. Acta Mechanica, 2017 (in press).
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· K. Wu, X. Guo, H.H. Ruan, and L.L. Zhu(*). Micromechanical modeling for mechanical properties of gradient-nanotwinned metals with a composite microstructure. Material Science and Engineering A, 703(1), 180–186 (2017). Impact factor: 3.094 (2区SCI)
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· L.L. Zhu(*), H.H. Ruan, A.Y. Chen, X. Guo, and J. Lu(*). Microstructures-based constitutive analysis for mechanical properties of gradient-nanostructured 304 stainless steels. Acta Materialia, 128(1), 375–390 (2017). Impact factor: 5.301 (1区SCI)
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· L.L. Zhu(*), C.S. Wen, C.Y. Gao(*), X. Guo, and J. Lu. A study of dynamic plasticity in austenite stainless steels with a gradient distribution of nanoscale twins. Scripta Materialia, 133(1), 49–53 (2017). Impact factor: 3.747 (2区SCI)
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· Q.D. Ouyang, X. Guo(*), and X.Q. Feng. 3D microstructure-based simulations of strength and ductility of bimodal nanostructured metals. Material Science and Engineering A, 677(1), 76–88 (2016). Impact factor: 3.094 (2区SCI)
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· X. Guo(*), X. Sun, X. Tian, G.J. Weng, Q.D. Ouyang, and L.L. Zhu(*). Simulation of ballistic performance of a two-layered structure of nanostructured metal and ceramic. Composites Structures, 157(1), 163–173 (2016). Impact factor: 3.858 (2区SCI)
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· L.L. Zhu(*), X. Guo, and H.H. Ruan. Simulating size and volume fraction dependent strength and ductility of nanotwinned composite copper. Journal of Applied Mechanics, 83(7), 071009-1-8 (2016). Impact factor: 2.133
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· X. Guo(*), G. Yang, and G.J. Weng. The saturation state of strength and ductility of bimodal nanostructured metals. Materials Letters, 175(1), 131–134 (2016). Impact factor: 2.572
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· X. Guo(*), Q.D. Ouyang, G.J. Weng, and L.L. Zhu. The direct and indirect effects of nanotwin volume fraction on the strength and ductility of coarse-grained metals. Material Science and Engineering A, 657(1), 234–243 (2016). Impact factor: 3.094