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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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· X. Guo(*), W.J. Zhang, L.L. Zhu, and J. Lu. Mesh dependence of transverse cracking in laminated metals with nanograined interface layers. Engineering Fracture Mechanics, 105(1), 211–220 (2013). Impact factor: 1.576
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· X. Guo(*), K. Chang, L.Q. Chen, and M. Zhou(*). Determination of fracture toughness of AZ31 Mg alloy using the cohesive finite element method. Engineering Fracture Mechanics, 96(1), 401–415 (2012). Impact factor: 1.576
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· X. Guo, G.J. Weng, and A.K. Soh(*). Ductility enhancement of layered stainless steel with nanograined interface layers. Computational Materials Science, 55(3), 350–355 (2012). Impact factor: 1.458
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· X. Guo, R. K.L. Su, and B. Young(*). Numerical investigation of the bilinear softening law in the cohesive crack model for normal-strength and high-strength concrete. Advances in Structural Engineering, 15(3), 373–387 (2012). Impact factor: 0.489
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· X. Guo, A. Y.T. Leung(*), A.Y. Chen, H.H. Ruan, and J. Lu. Investigation of non-local cracking in layered stainless steel with nanostructured interface. Scripta Materialia, 63(4), 403–406 (2010). Impact factor: 2.949
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· X. Guo, W. Liang, and M. Zhou(*). Mechanism for the pseudoelastic behavior of FCC shape memory nanowires. Experimental Mechanics, 49(2), 183–190 (2009). Impact factor: 1.542
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· X. Guo, A. Y.T. Leung(*), X.Q. He, H. Jiang, and Y. Huang. Bending buckling of single-walled carbon nanotubes by atomic-scale finite element. Composites: Part B, 39(1), 202–208 (2008). Impact factor: 1.704
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· X. Guo, A. Y.T. Leung(*), H. Jiang, X.Q. He, and Y. Huang. Critical strain of carbon nanotubes: an atomic-scale finite element study. Journal of Applied Mechanics-Transactions of the ASME, 74(2), 347–351 (2007). Impact factor: 1.065
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· A. Y.T. Leung(*), X. Guo, X.Q. He, H. Jiang, and Y. Huang. Postbuckling of carbon nanotubes by atomic-scale finite element. Journal of Applied Physics, 99(12), 124308 (2006). Impact factor: 2.201
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· A. Y.T. Leung(*), X. Guo, X.Q. He, and S. Kitipornchai. A continuum model for zigzag single-walled carbon nanotubes. Applied Physics Letters, 86(8), 083110 (2005). Impact factor: 3.726
