1990.9 1993.8 北京大学 力学 博士 1987.9 1990.8 北京大学 力学 硕士 1978.9 1982.8 北京大学 力学 学士

1995.8 至今 大连理工大学 教授 1993.9 1995.8 大连理工大学 博士后 1982.7 1993.8 河南大学 教师 1978.9 1982.7 北京大学 1975.7 1978.9 河南省尉氏县永兴公社 知青

承担国家级研究项目十余项

发表主要学术论文 [1]. Wang MZ, Xu XS, A generalization of Almansi's theorem and its application, Appl. Math. Modelling, 1990, 14(5): 275-279 [2]. Xu XS, Wang MZ, 1991, General complete solutions of the equations of spatial and axisymmetric Stokes flow, Q. JI. Mech. Appl. Math., 1991, 44(4): 537-548 [3]. Xu XS, Wang MZ, On the completeness of solutions of the generalized axisymmetric Stokes flow equations, Acta Mathematica Scientia, 1993, 13(4): 222-228 [4]. Xu XS, Su XY, Yu TX, The propagation of longitudinal wave in rate-dependent plastic softening material, Sinence in China (Ser.A), 1994, 37(4): 450-458 [5]. Wang W, Xu XS, Wang MZ, Completeness of general solutions to axisymmetric problems of transverely isotropic body, Sinence in China (Ser.A), 1994, 37(5): 580-596 [6]. Xu XS, Su XY, Wang R, Dynamic buckling of elastic-plastic cylindrical shells on axial stress waves, Sinence in China (Ser.A), 1995, 38(4): 472-479 [7]. Xu XS, Zhong WX, Lu YL, Study of nonlinear long wave approximation in uniform channels via Hamiltonian structure, J. Hydrodynamics, (Ser.B), 1995, 7(1): 66-76 [8] Zhong, WX, Xu XS, Zhang HW, Hamilton system and the Saint-Venant problem in elasticity, Appl. Math. Mech. , 1996, 17(9): 827-836 [9] Xu XS, Zhong WX, Zhang HW, The Saint-Venant problem and principle in elasticity, Int. J. Solids Structures, 1997, 34(22): 2815-2827 [10] Xu XS, Xu JY, Liu ST, Liu KX, Dynamic axisymmetric and non-axisymmetric buckling of finite cylindrical shells in propagting ang reflecting of axial stress waves, J. Phys iv France, 1997, 7, C3-617 - C3-622 [11] Xu XS, Yu TX, Su XY, Propagation of wave in rate-dependent plastic softening rod and beam, J. Engineering Mechanics, 1997, 123(3): 190-195 [12] Xu XS, Guo XL, A theoretical and experimental study on the nonlinear shallow water wave in containers, J. Experimental Mechanics, 2002, 16(3): 298-304 [13] Xu XS, Guo XL, A method of Hamiltonian formulation for elastic structural vibration in rotating system, J. Vibration Engineering, 2003, 16(1): 36-40 [14] Gu Q, Xu XS, Leung AYT, The application of Hamiltonian system for two-dimensional transversely isotropic piezoelectric media. Journal of Zhejiang University, Science. 2005, 6(9): 915-921 [15] Xu XS, Gu Q, Leung AYT, Zhen JJ, A symplectic eigensolution method in transversely isotropic piezoelectric cylindrical media. Journal of Zhejiang University, Science. 2005, 6(9): 922-927 [16] Wang GP, Xu XS, Stokes flow in lid-driven cavities via Hamiltonian system, Journal of Jilin University (Engineering and Technology Edition), 2006, 36: 102-106 [17] Xu XS, Zhang WX, Li X, An application of the symplectic system in two-dimensional viscoelasticity, International Journal of Engineering Science, 2006,44: 897–914 [18] Xu XS, Ma Y, Lim CW, Chu HJ Dynamic buckling of cylindrical shells subject to an axial impact in a symplectic system. International Journal of Solids and Structures, 2006 43: 3905–3919 [19] Leung AYT, Xu XS. The boundary layer phenomena in two-dimensional transversely isotropic piezoelectric media by exact symplectic expansion, Int. J. Numer. Meth. Engng 2007; 69:2381–2408 [20] Xu XS, Duan Z, Ma Y, Chu HJ. A symplectic method and dynamic buckling of elastic cylindrical shells under both axial impact and internal or external pressure, Explosion and shock waves, 2007, 27(6):509-514 [21] Xu XS, Wang GP, Sun FM. A analytical and numerical method of symplectic system for Stokes flow in the two-dimensional rectangular domain. Applied Mathematics and Mechanics, 2008, 29(6): 715-724 [22] Xu XS, Leung AYT, Gu Q, 3D symplectic expansion for piezoelectric media，International Journal for Numerical Methods in Engineering, 2008, 74:1848–1871 [23] Xu X S, Chu H J, Lim C W. Hamiltonian system for dynamic buckling of transversely isotropic cylindrical shells subject to an axial impact. International Journal of Structure and Dynamics,2008,2(3):487-504 [24] Sun FM, Xu XS, The Control Mechanism of a New Fish-Like Underwater Robot with Two Tails, Lecture Notes in Computer Science, 2008, LNAI 5314(1) 304–313 [25] Zhang WX, Xu XS, Hamiltonian system and 2D problem of thermo-visco elasticity. Journal of University of Science and Technology of China, 2008, 38(2): 200-206 [26] Leung AYT, Xu XS, Zhou ZH, Wu YF, Analytic stress intensity factors for finite elastic disc using symplectic expansion. Engineering Fracture Mechanics. 2009; 76(12): 1866-1882 [27] Xu XS, Ma JQ, Lim CW, Chu HJ. Dynamic local and global buckling of cylindrical shells under axial impact.Engineering Structures, 2009, 31(5): 1132-1140 [28] Xu XS, Chu HJ, Lim CW. A symplecyic Hamiltonian appoach for thermal buckling of cylindrical shells. International Journal of Structural Stability and Dynamics, 2010, 10(2): 273-286 [29] Xu XS, Zhou ZH, Leung AYT. Analytical stress intensity factors for edge-cracked cylinder. International Journal of Mechanical Sciences, 2010, 52: 892–903 [30] Xu XS, Ma JQ, Lim CW, Zhang G. Dynamic torsional buckling of cylindrical shells. Computers and Structures, 2010, 88: 322–330 [31] Leung AYT, Xu XS, Zhou ZH. Hamiltonian approach to analytical thermal stress intensity factors—Part 1: thermal intensity factor. Journal of Thermal Stresses, 2010 , 33: 262–278 [32] Leung AYT, Xu XS, Zhou ZH. Hamiltonian approach to analytical thermal stress intensity factors—Paret 2: thermal stress intensity factor. Journal of Thermal Stresses, 2010 , 33: 279–301 [33] Zhou ZH, Xu XS, Leung AYT. Mode III edge-crack in magneto-electro-elastic media by symplectic expansion. Engineering Fracture Mechanics, 2010, 77: 3157–3173 [34] Zhang WX, Xu XS, Yuan F. The symplectic system method in the stress analysis of 2D elasto-viscoelastic fiber reinforced composites. Arch Appl Mech, 2010, 80: 829-841 [35] Zhou ZH, Wong KW, Xu XS, Leung AYT. Natural vibration of circular and annular thin plates by Hamiltonian approach. Journal of Sound and Vibration, 2010,330: 1005–1017 [36] Sun FM, Bian YN, Arima H, Ikegami Y, Xu XS. Strength characteristics of the self-sustained wave in grooved channels with different groove length. Heat Mass Transfer, 2010, 46:1229–1237 [37] Lim CW, Xu XS. Symplectic Elasticity: Theory and Applications. Applied Mechanics Reviews. 2010, 63 / 050802-1- 050802-10 [38] Zhou ZH, Xu XS and Leung AYT. Analytical Mode III electromagnetic permeable cracks in magnetoelectroelastic materials. Computers & Structures, 2011, 89: 631-645 [39] Zhou ZH, Xu XS, Leung AYT. Transient thermal stress intensity factors for Mode I edge-cracks. Nuclear Engineering and Design. 2011, 241: 3613-3623 [40] Xu XS, Zhang G, Zeng QC, Chu HJ, Bamboo Node-Type Local Buckling of Cylindrical Shells Under Axial Impact. Advances in Vibration Engineering, 2011, 10(1): 41-52 [41] Zhou ZH, Wong KW, Xu XS, Leung AYT. Natural vibration of circular and annular thin plates by Hamiltonian approach. Journal of Sound and Vibration. 2011, 330 (5): 1005-1017 [42] Sun JB, Xu XS, Lim CW. Dynamic Buckling of Cylindrical shells under Axial Impact in Hamiltonian System. Int. J. Nonlinear Sci. Numer. Simul, 2012(13):93-97. [43] Zhang WX, Xu XS, The symplectic approach for two-dimensional thermo-viscoelastic analysis, International Journal of Engineering Science 2012, 50: 56-69 [44] Wu YF, Xu XS, Sun JB, Jiang C. Analytical solution for the bond strength of externally bonded reinforcement. Composite Structures. 2012, 94: 3232-3239 [45] Dong JZ, Xu XS, Zhang Y. Nonlinear Waves Driven by Motional Plates in Shallow Two-Layer Fluid. Advnces in Vibration Engineering, 2012, 11(4): 389-402 [46] Xu XS, Sun JB, Lim CW, Dynamic torsional buckling of cylindrical shells in Hamiltonian system, Thin-Walled Structures 64 (2013) 23-30 [47] Sun JB, Xu XS, Lim CW, Tan VBC. An energy conservative symplectic methodology for buckling of cylindrical shells under axial compression, Acta Mech, 224 (2013), 1579-1592 [48] Sun JB, Xu XS, Lim CW. Localization of dynamic buckling patterns of cylindrical shells under axial impact, International Journal of Mechanical Sciences 66 (2013) 101-108 [49] Zhou ZH, Xu XS, Leung AYT, Huang Y. Stress intensity factors and T-stress for an edge interface crack by symplectic expansion. Engineering Fracture Mechanics 102 (2013) 334-347 [50] Sun JB, Xu XS, Lim CW. Accurate symplectic space solutions for thermal buckling of functionally graded cylindrical shells. Composites: Part B 55 (2013) 208-214 [51] Sun JB, Xu XS, Lim CW. Torsional buckling of functionally graded cylindrical shells with temperature-dependent properties. International Journal of Structural Stability and Dynamics, 2014, 14(1): 1350048-1–23. [52] Zhou ZH, Xu XS, Leung AYT. The finite element discretized symplectic method for interface cracks, Composites Part B, 2014, 58: 335–342. [53] Sun JB, Xu XS, Lim CW. Buckling of functionally graded cylindrical shells under combined thermal and compressive loads. Journal of Thermal Stresses, 2014, 37: 340-362 [54] Sun JB, Xu XS, Lim CW. Buckling of cylindrical shells under external pressure in a Hamiltonian system. Journal of Theoretical and Applied Mechanics. 2014, 52(3): 641-653 [55] Leung AYT, Zhou ZH, Xu XS, Determination of stress intensity factors by the finite element discretized symplectic method, International Journal of Solids and Structures, 2014, 51, 1115-1122. [56] Zhou ZH, AYT Leung, Xu XS, Luo XW, Mixed-mode thermal stress intensity factors from the finite element discretized symplectic method, International Journal of Solids and Structures, 2014, 51(21): 3798-3806. [57] Xu CH, Zhou ZH, Xu XS, Leung AYT, Fracture analysis of mode III crack problems for the piezoelectric bimorph, Archive of Applied Mechanics, 2014, 84(7), 1057-1079. [58] Jiabin Sun, Xinsheng Xu, C.W. Lim, Weiyu Qiao. Accurate buckling analysis for shear deformable FGM cylindrical shells under axial compression and thermal loads. Composite Structures, 2015,123: 246-256 [59] Xu XS, Cheng XH, Zhou ZH, Xu CH, An analytical approach for the mixed-mode crack in linear viscoelastic media, European Journal of Mechanics A/Solids, 2015, 52: 12-25 [60] Xu CH, Zhou ZH, Xu XS, Electroelastic singularities and intensity factors for an interface crack in piezoelectric-elastic bimaterials, Applied Mathematical Modelling. 2015, 39: 2721-2739 [61] Zhou ZH, Xu CH, Xu XS, Leung AYT, The finite element discretized symplectic method for the steady-state heat conduction with singularities in composite structures, Numerical Heat Transfer, Part B: Fundamentals. 2015, 67: 302-319 [62] Xu CH, Zhou ZH, Leung AYT, Xu XS, Luo XW. The finite element discretized symplectic method for composite mode III cracks. Engineering Fracture Mechanics. 2015, 140: 43-60 [63] Xu CH, Zhou ZH, Xu XS, Evaluation of mode III interface cracks in magnetoelectroelastic bimaterials by symplectic expansion, Journal of intelligent material systems and structures, 2015, 26(11): 1417-1441 [64] Sun JB, Lim CW, Xu XS, Mao H. Accurate buckling solutions of grid-stiffened functionally graded cylindrical shells under compressive and thermal loads. Composites Part B, 2016, 89: 96-107 [65] Sun JB, Lim CW, Zhou ZH, Xu XS, Sun W. Rigorous buckling analysis of size-dependent functionally graded cylindrical nanoshells, Journal of Applied Physics, 119, 214303 (2016) [66] Sun JB, Xu XS, Lim CW, Zhou ZH, Xiao SY, Accurate thermo-electro-mechanical buckling of shear deformable piezoelectric fiber-reinforced composite cylindrical shells, Composite Struct., 141, 221-231, 2016. [67] Qiu WB, Zhou ZH, Xu XS, The dynamic behavior of circular plates under impact loads, Journal of Vibration Engineering and Technologies, 2016, 4(2): 111-116 [68] Sun JB, Xu XS, Lim CW, Combined load buckling for cylindrical shells based on a symplectic elasticity approach, Journal of Theoretical and Applied Mechanics, 2016, 54(3): 705-716 [69] Xu W, Tong ZZ, Leung AYT, Xu XS, Zhou ZH, Evaluation of the stress singularity of an interface V-notch in a bimaterial plate under bending, Engineering Fracture Mechanics, 2016,168: 11-25 [70] Hu JL, Xu XS. Fast-start control of bionic fish using giant magnetostrictive materials. Journal of Vibration Engineering & Technologies, 2017, 5(2): 207-211 [71] Xu XS, Tong ZZ, Rong DL, Cheng XH, Xu CH, Zhou ZH. Fracture analysis of magnetoelectroelastic bimaterials with imperfect interfaces by symplectic expansion, Applied Mathematics and Mechanics, 2017, 38(8): 1043-1058.

此外专著，专利和软件著作权多项。