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个人简介

于1983年,1986年,1990年在武汉大学工学院,华中科技大学力学系,上海大学上海市应用数学和力学研究所分别获学士,硕士,博士(导师钱伟长教授)学位; 1990年至1992年间以及1992年至1994年间分别在西北大学现代物理研究所和北京大学数学科学院做博士后研究工作; 1994年任北京大学数学科学院副教授; 1995年至1997年间获洪堡研究基金,任德国鲁尔大学土木与环境工程学院洪堡访问教授; 1998年至2003年间任该学院科研助理, 自2003年起任教授兼总工程师; 国家级高层次人才,自2011年起全职回国任上海大学教授和中国商发集团专家; 自2013年起受聘国家专家

研究领域

致力于先进和智能材料建模与关键结构/装备的服役安全分析,主要直接背景是国防与民用工程各部门(如土木,机械电气,航空航天航海)中各种重要结构和装备(如车辆,高铁,船舶,飞行器,电站本身及其中关键部件)的强度设计和服役运行中的安全可靠性问题

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Zhao-Ling Wang, H. Xiao. A study of metal fatigue failure as inherent features of elastoplastic constitutive equations. In: Holm Altenbach, Tetsuya Matsuda, Dai Okumura (eds.), From Creep Damage Mechanics to Homogenization Methods - A Liber Amicorum to celebrate the brithday of Nobutada Ohno, Advanced Structural Materials Series, pp. 529-540, Springer, Berlin, 2015. L. Yuan, Z.X. Gu, Z.N. Yin, H. Xiao. New compressible hyperelastic models for rubberlike matereials. Acta Mechanica 226, 4059-4072, 2015. L.D. Yu, T.F. Jin, Z.N. Yin, H. Xiao. Multi-axial strain-stiffening elastic potentials with energy bounds: explicit approach based on uniaxial data. Appl. Math. Mech. -Engl. Ed. 36, 883-894, 2015. L.D. Yu, T.F. Jin, Z.N. Yin, H. Xiao. A model for rubberlike elasticity up to failure. Acta Mechanica 226, 1445-1456, 2015. Lidan Yu, Tianfu Jin, Z.N. Yin, H. Xiao. Determination of finite multi-axial elastic potentials with strain-stiffening effects for rubbery materials based on uniaxial data. Acta Mechanica Solida Sinica 28, 551-557, 2015. H. Xiao. Elastic potentials with best approximation to rubberlike elasticity. Acta Mechanica 226, 331-350, 2015. T.F. Jin, L.D. Yu, Z.N. Yin, H. Xiao. Bounded elastic potentials for rubberlike materials with strain-stiffening effects. ZAMM-J. Appl. Math. Mech. 95, 1230-1242, 2015. Z.X. Gu, L. Yuan, Z.N. Yin, H. Xiao. A multiaxial elastic potential with error-minimizing approximation to rubberlike elasticity. Acta Mech. Sinica 31, 637-646, 2015. H. Xiao. Frontiers and current applications in elasticity. Acta Mechanica Sinica 31, 600-602, 2015. H. Xiao, X.M. Wang, Z.L. Wang, Z.N. Yin. Explicit, comprehensive modeling of multi-axial finite strain pseudo-elastic SMAs up to failure. Int. J. Solids Structures 88-89, 215-226, 2016. Z.L. Wang, H. Li, Z.N. Yin, H. Xiao. A new, direct approach toward modeling thermo-coupled fatigue failure behavior of metals and alloys. Acta Mechanica Solida Sinica 30, http://dx.doi.org/10.1016/j.camss.2016.10.001, 2017. Z.L. Wang, H. Xiao. Direct modeling of multi-axial fatigue failure for metals. Int. J. Solids Struct., 2017 (accepted) J. Cao, X.F. Ding, Z.N. Yin, H. Xiao. Large elastic deformations of soft solids up to failure: New hyperelastic models with error estimation. Acta Mechanica, 2017. X.F. Ding, J. Cao, Z.N. Yin, H. Xiao. New multi-axial constitutive models for large elastic deformation behaviours of soft solids up to breaking. Int. J. Solids Structures, 2017 (in press). S.Y. Wang, L. Zhan, Z.L. Wang, Z.N. Yin, H. Xiao. A direct approach toward simulating cyclic and non-cyclic fatigue failure of metals. Acta Mechanica, 2017 (accepted) S.Y. Wang, L. Zhan, Z.L. Wang, Z.N. Yin, H. Xiao.A new, direct approach toward modeling rate-dependent fatigue failure of metals, Advanced Structured Materials 61, 432-447, 2017. H. Li, X.F. Ding, Z.N. Yin, H. Xiao. An Explicit Approach toward ModelingThermo-Coupled Deformation Behaviors of SMPs. Applied Sciences 7, 289-306, 2017. H. Xiao, H. Li, Z.L. Wang, Z.N. Yin. Finite Inelastic Deformations of Compressible Soft Solids with the Mullins Effect. Advanced Structured Materials 60, 223-242, Springer, Berlin, 2016. L. Zhan, S.Y. Wang, Z.L. Wang, Z.N. Yin, H. Xiao. Direct simulation of thermo-coupled fatigue failure for metals. ZAMM-J. Appl. Math. Mech. 97, 2017 (to appear). H. Xiao.Quantum enigma hidden in continuum mechanics. Appl. Math. Mech.-Engl. Ed. 38, 39-56, 2017.

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