Book in English
  1. X Zhang, Z Chen, Y Liu. The Material Point Method - A Continuum-Based Particle Method for Extreme Loading Cases. Academic Press, 2016. ISBN: 9780124077164.
English Journal Papers (Login Required for download
  1. Zhixin Zeng, Ruichen Ni, Xiong Zhang, Yan Liu. An explicit phase field material point method for modeling dynamic fracture problems. International Journal for Numerical Methods in Engineering. 124(12): 2680-2708, 2023. (DOI: 10.1002/nme.7231).
  2. Ruichen Ni, Jiasheng Li, Xiong Zhang, Xu Zhou, Xiaoxiao Cui. An immersed boundary-material point method for shock-structure interaction and dynamic fracture. Journal of Computational Physics, 470:111558, 2022. (DOI: 10.1016/j.jcp.2022.111558).
  3. Heng Zhang, Xiong Zhang. Peridynamic analysis of materials interface fracture with thermal effect. Theoretical and Applied Fracture Mechanics, 2022, 103420. (DOI: 10.1016/j.tafmec.2022.103420).
  4. Lei Kan, Xiong Zhang. An immersed MMALE material point method for FSI problems with structure fracturing. Computer Methods in Applied Mechanics and Engineering, 396:115099, 2022 (DOI:10.1016/j.cma.2022.115099).
  5. Heng Zhang, Xiong Zhang, Yan Liu. A peridynamic model for contact problems involving fracture. Engineering Fracture Mechanics,267:108436,2022. (DOI: 10.1016/j.engfracmech.2022.108436).
  6. Ming-Jian Li, Yanping Lian, Xiong Zhang. An immersed finite element material point (IFEMP) method for free surface fluid–structure interaction problems. Computer Methods in Applied Mechanics and Engineering,393:114809,2022. (DOI: 10.1016/j.cma.2022.114809)
  7. Zhixin Zeng, Heng Zhang, Xiong Zhang, Yan Liu, Zhen Chen. An adaptive peridynamics material point method for dynamic fracture problem.  Computer Methods in Applied Mechanics and Engineering. 393:114786, 2022. (DOI: 10.1016/j.cma.2022.114786)
  8. Heng Zhang, Xiong Zhang, Yan Liu, Pizhong Qiao.  Peridynamic modeling of elastic bimaterial interface fracture. Computer Methods in Applied Mechanics and Engineering. 390: 114458, 2022. (DOI: https://doi.org/10.1016/j.cma.2021.114458)
  9. Lei Kan, Yong Liang, Xiong Zhang. A Critical Assessment and Contact Algorithm for the Staggered Grid Material Point Method. International Journal of Mechanics and Materials in Design,17:743–766,2021. (DOI: 10.1007/s10999-021-09557-7).
  10. Murong Li, Yong Lei, Dedong Gao, Yingda Hu & Xiong Zhang. A novel material point method (MPM) based needle-tissue interaction model, Computer Methods in Biomechanics and Biomedical Engineering, 24(12):1393-1407, 2021. (DOI: 10.1080/10255842.2021.1890047)
  11. Heng Zhang, Xiong Zhang, Pizhong Qiao. A new peridynamic mixed-mode bond failure model for interface delamination and homogeneous materials fracture analysis. Computer Methods in Applied Mechanics and Engineering. 379(1): 113728,  2021 (DOI: 10.1016/j.cma.2021.113728)
  12. Yong Liang, Xiong Zhang, Yan Liu. Extended Material Point Method for the 3D Crack Problems. International Journal for Numerical Methods in Engineering, 122(12):3044-3069. 2021. (DOI: 10.1002/nme.6653)
  13. Zhixin Zeng, Yu-Chen Su, Xiong Zhang, Zhen Chen. Combining peridynamics and generalized interpolation material point method via volume modification for simulating transient responses. Computational Particle Mechanics, 8:337-347, 2021. (DOI: 10.1007/s40571-020-00334-5)
  14. Ruichen Ni, Xiong Zhang. A precise critical time step formula for the explicit material point method. International Journal for Numerical Methods in Engineering. 121:4989-5016, 2020. (DOI: 10.1002/NME.6506)
  15. Yan Song, Yan Liu, Xiong Zhang. A non-penetration FEM-MPM contact algorithm for complex fluid-structure interaction problems. Computers and Fluids. 213: 104749, 2020. DOI: 10.1016/j.compfluid.2020.104749
  16. Yan Song, Yan Liu, Xiong Zhang. A Transport Point Method for Complex Flow Problems with Free Surface. Computational Particle Mechanics. 7(2): 377-391, 2020. (DOI: 10.1007/s40571-019-00282-9)
  17. Yong Liang, Xiong Zhang, Yan Liu. An Efficient Staggered Grid Material Point Method. Computer Methods in Applied Mechanics and Engineering. 352: 85-109, 2019.  (DOI: 10.1016/j.cma.2019.04.024)
  18. Xiang Chen, Xiong Zhang. A Coupled MMALE-FE Method for Solving 3D Fluid-Solid Interaction Problems with Multi-material Flow. Engineering Computations. 36(8): 2766-2786, 2019. (DOI: 10.1108/EC-10-2018-0486)
  19. Xiang Chen, Xiong Zhang. A predicted-Newton's method for solving the interface positioning equation in the MoF method on general polyhedrons. Journal of Computational Physics. 384: 60-76, 2019. (DOI: 10.1016/j.jcp.2018.12.038)
  20. Zhen-Peng Chen, Xiong Zhang, Kam Yim Sze, Lei Kan, Xin-Ming Qiu. v-p material point method for weakly compressible problems. Computers and Fluids. 176:170-181, 2018. (DOI: 10.1016/j.compfluid.2018.09.005)
  21. Yan Liu, Xuena Si, Ping Liu, Xiong Zhang. Mesoscopic Modeling and Simulation of 3D Orthogonal Woven Composites Using Material Point Method. Composite Structures. 203:425-435, 2018. (DOI: 10.1016/j.compstruct.2018.07.008)
  22. Zhiping Ye, Xiong Zhang, Gangtie Zheng, Guanghui Jia. A material point method model and ballistic limit equation for hyper velocity impact of multi-layer fabric coated aluminum plate. Int J Mech Mater Des. 14(4): 511-526, 2018. (DOI: 10.1007/s10999-017-9387-0)
  23. Fan Zhang, Xiong Zhang, Kam Yim Sze, Yong Liang, Yan Liu. Improved incompressible material point method based on particle density correction. International Journal of Computational Methods. 15(07): 1850061, 2018. (DOI: 10.1142/S0219876218500615)
  24. Y. Lian, X. Zhang. A Coupled Finite Element Material Point Method for Large Deformation Problems. Advances in Computational Coupling and Contact Mechanics.  251-288, 2018. (DOI: 10.1142/9781786344786_0007)
  25. Fan Zhang, Xiong Zhang, Yan Liu. An augmented incompressible material point method for modeling liquid sloshing problems. International Journal of Mechanics and Materials in Design. 14(1):141–155, 2018. (DOI: 10.1007/s10999-017-9366-5)
  26. Bo Wu,Zhenpeng Chen, Xiong Zhang, Yan Liu, Yanping Lian. Coupled Shell-Material Point Method for Bird Strike Simulation. Acta Mechanica Solida Sinica. 31(1):1-18, 2018. (DOI: 10.1007/s10338-018-0001-2)
  27. Yong Gan, Zheng Sun, Zhen Chen, Xiong Zhang, Yu Liu. Enhancement of the material point method using B-spline basis functions. International Journal For Numerical Methods In Engineering. 113(3):411–431, 2018. (DOI: 10.1002/nme.5620)
  28. Xiang Chen, Xiong Zhng. An Improved 2D MoF Method by Using High Order Derivatives. Journal of Computational Physics. 349: 176–190, 2017 (DOI: 10.1016/j.jcp.2017.08.031)
  29. Yong Liang, Tamas Benedek, Xiong Zhang, Yan Liu. Material Point Method with Enriched Shape Function for Crack Problems. Computer Methods in Applied Mechanics and Engineering. 322:541–562, 2017. (DOI: 10.1016/j.cma.2017.05.012)
  30. Zhen-Peng Chen, Xiong Zhang, Xin-Ming Qiu, Yan Liu. A frictional contact algorithm for implicit material point method. Computer Methods in Applied Mechanics and Engineering. 321:124-144, 2017. (DOI: 10.1016/j.cma.2017.04.006)
  31. Nianfeng He, Yan Liu, Xiong Zhang. Seamless Coupling of Molecular Dynamics and Material Point Method via Smoothed Molecular Dynamics. International Journal For Numerical Methods In Engineering. 112(4): 380-400, 2017. (DOI: 10.1002/nme.5543)
  32. Xiang Chen, Xiong Zhang, Zupeng Jia. A Robust and Efficient Polyhedron Subdivision and Intersection Algorithm for Three-Dimensional MMALE Remapping. Journal of Computational Physics, 338:1–17, 2017. (DOI: 10.1016/j.jcp.2017.02.029)
  33. Fan Zhang, Xiong Zhang, KY Sze, Yanping Lian, Yan Liu. Incompressible material point method for free surface flow. Journal of Computational Physics. 330: 92–110, 2017. (DOI: 10.1016/j.jcp.2016.10.064)
  34. Xiang Chen, Xiong Zhang. An improved 3D MoF method based on analytical partial derivatives. Journal of Computational Physics. 326: 156–170, 2016. (DOI: 10.1016/j.jcp.2016.08.051)
  35. D H Li, X Zhang, K Y Sze, Y Liu. Extended Layerwise method for laminated composite plates with multiple delaminations and transverse cracks. Computational Mechanics. 58(4): 657-679, 2016. (DOI: 10.1007/s00466-016-1310-2)
  36. P Liu, Y Liu, X Zhang. Simulation of Hyper-velocity Impact on Double Honeycomb Sandwich Panel and Its Staggered Improvement with Internal-structure Model. International Journal of Mechanics and Materials in Design. 12(2): 241-254, 2016. (DOI: 10.1007/s10999-015-9300-7)
  37. Nianfeng He, Yan Liu, Xiong Zhang. Molecular dynamics-smoothed molecular dynamics (MD-SMD) adaptive coupling method with seamless transition. International Journal for Numerical Methods in Engineering, 108(3): 233–251, 2016. (DOI: 10.1002/nme.5224).
  38. N F He, Y Liu, X Zhang. An Improved Smoothed Molecular Dynamics Method by Alternating with Molecular Dynamics. Computer Methods in Applied Mechanics and Engineering. 296: 273–294, 2015. (DOI:10.1016/j.cma.2015.08.005)
  39. Y Z Liu, X M Qiu, X Zhang, T X Yu. Response of Woodpecker's Head during Pecking Process Simulated by Material Point Method. PLOS ONE. 10(4):E0122677, 2015 (DOI: 10.1371/journal.pone.0122677).
  40. P Liu, Y Liu, X Zhang. Improved shielding structure with double honeycomb cores for hyper-velocity impact. Mechanics Research Communications. 69:34~39, 2015. (DOI: 10.1016/j.mechrescom.2015.06.003)
  41. Z P Chen, X M Qiu, X Zhang, Y P Lian. Improved coupling of finite element method with material point method based on a particle-to-surface contact algorithm. Computer Methods in Applied Mechanics and Engineering. 293(15): 1~19, 2015. (DOI: 10.1016/j.cma.2015.04.005)
  42. Y P Lian, P F Yang, X Zhang, F Zhang, Y Liu, P Huang.  A Mesh-Grading Material Point Method and Its Parallelization for Problems with Localized Extreme Deformation. Computer Methods in Applied Mechanics and Engineering. 289(1): 291–315, 2015. (DOI: 10.1016/j.cma.2015.02.020)
  43. P Liu, Y Liu, X Zhang. Internal-structure-model Based Simulation Research of Shielding Properties of Honeycomb Sandwich Panel Subjected to High-Velocity Impact. International Journal of Impact Engineering. 77:120 - 133, 2015.
  44. D H Li, Y Liu, X Zhang.  An extended Layerwise method for composite laminated beams with multiple delaminations and matrix cracks. International Journal for Numerical Methods in Engineering. 101(6):407 - 434,  2015. (DOI: 10.1002/nme.4803)
  45. P Liu, Y Liu, X Zhang. Investigation on High-Velocity Impact of Micron Particles using Material Point Method. International Journal of Impact Engineering. 75: 241–254, 2015. (DOI: 10.1016/j.ijimpeng.2014.09.001)
  46. J G Li, Y Hamamoto, Y Liu, X Zhang. Sloshing impact simulation with material point method and its experimental validations. Computers & Fluids, 103(1):  86–99, 2014 (DOI: 10.1016/j.compfluid.2014.07.025)
  47. Y Liu, W W Gong, X Zhang. Numerical investigation of influences of porous density and strain-rate effect on dynamical responses of aluminum foam. Computational Materials Science, 91: 223 ~ 230, 2014  (DOI: 10.1016/j.commatsci.2014.05.002)
  48. X X Cui, X Zhang, X Zhou, Y Liu, F Zhang. A coupled finite difference material point method and its application in explosion simulation, CMES: Computer Modeling in Engineering & Sciences. 98(6): 565-599, 2014  (doi:10.3970/cmes.2014.098.565)
  49. Y P Lian, X Zhang, F Zhang, X X Cui. Tied interface grid material point method for problems with localized extreme deformation. International Journal of Impact Engineering. 70:50-61, 2014 (DOI: 10.1016/j.ijimpeng.2014.03.008)
  50. Y P Lian,Y Liu,X Zhang. Coupling of membrane element with material point method for fluid membrane interaction problems. International Journal of Mechanics & Materials in Design. 10(2): 199-211, 2014 (DOI: 10.1007/s10999-014-9241-6).
  51. P F Yang, Y Gan, X Zhang, Z Chen, W J Qi and P Liu. Improved Decohesion Modeling with the Material Point Method For Simulating Crack Evolution. International Journal of Fracture.186(1-2): 177-184, 2014 (DOI:10.1007/s10704-013-9925-1).
  52. B L Boyce, S L B Kramer, ... X Zhang, ... (51 authros). The Sandia Fracture Challenge: blind round robin predictions of ductile tearing. International Journal of Fracture. 186(1-2): 5-68, 2014 (DOI: 10.1007/s10704-013-9904-6).
  53. D H Li, Y Liu, X Zhang. Low-velocity impact responses of the stiffened composite laminated plates based on the progressive failure model and the layerwise/solid-elements method. Composite Structures. 110:249~275, 2014. (DOI: 10.1016/j.compstruct.2013.12.011)
  54. X X Cui,X Zhang,K Y Sze,X Zhou.  An alternating finite difference material point method for numerical simulation of high explosive explosion problems. CMES: Computer Modeling in Engineering & Sciences, 92(5): 507~538, 2013. (DOI: 10.3970/cmes.2013.092.507
  55. D H Li, Y Liu, X Zhang. Linear statics and free vibration sensitivity analysis of the composite sandwich plates based on a layerwise/solid-element method. Composite Structures. 106:175-200,2013. (DOI: 10.1016/j.compstruct.2013.05.056)
  56. D H Li, Y Liu, X Zhang. A layerwise/solid-element method of the linear static and free vibration analysis for the composite sandwich plates. Composites Part B. 52: 187-198, 2013. (DOI: 10.1016/j.compositesb.2013.04.031)
  57. Y Liu, H K Wang, X Zhang. A Multiscale Framework for High-velocity Impact Process with Combined Material Point Method and Molecular Dynamics. International Journal of Mechanics and Materials in Design. 9(2): 127-139, 2013. (DOI: 10.1007/s10999-013-9213-2
  58. P F Yang, S A Meguid, X Zhang. Accurate modelling of the crush behaviour of thin tubular columns using material point method. SCIENCE CHINA Physics, Mechanics & Astronomy, 56(2): 1~11, 2013. (DOI: 10.1007/s11433-013-5073-x
  59. S Z Zhou, X Zhang, H L Ma. Numerical Simulation of Human Head Impact Using the Material Point. International Journal of Computational Methods. 10(4): 1350014, 2013. (DOI: 10.1142/S021987621350014X)  
  60. P F Yang, Y Liu, X Zhang, X Zhou, Y L Zhao. Simulation of Fragmentation with Material Point Method Based on Gurson Model and Random Failure. CMES: Computer Modeling in Engineering &  Sciences, 85(3): 207-236, 2012. 
  61. Y P Lian, X Zhang, Y Liu. An adaptive finite element material point method and its application in extreme deformation problems. Computer Methods in Applied Mechanics and Engineering 241–244 (1): 275–285, 2012  (DOI: 10.1016/j.cma.2012.06.015). 
  62. W W Gong, Y Liu, X Zhang, H L Ma. Numerical Investigation on Dynamical Response of Aluminum Foam Subject to Hypervelocity Impact With Material Point Method. CMES: Computer Modeling in Engineering &  Sciences 83(5): 527-545, 2012 
  63. Y P Lian, X Zhang, Y Liu. Coupling between finite element and material point method for problems with extreme deformation. Theoretical & Applied Mechanics Letters  2, 021003(2012) ( DOI:10.1063/2.1202103)
  64. R Ambati, H Yuan, X F Pan, X Zhang, Application of material point methods for cutting process simulations. Computational Materials Science 57: 102-110,  2012 (doi:10.1016/j.commatsci.2011.06.018
  65. H K Wang, Y Liu, X Zhang. The carbon nanotube composite simulation by material point method. Computational Materials Science 57: 23-29,  2012 . (DOI: 10.1016/j.commatsci.2011.06.017
  66. W W Gong, X Zhang, X M Qiu. Numerical Study of Dynamic Compression Process of Aluminum Foam with Material Point Method. CMES: Computer Modeling in Engineering & Sciences 82(3-4): 195-213, 2011. 
  67. Y P Lian, X Zhang, Y Liu. Coupling of finite element method with material point method by local multi-mesh contact method. Computer Methods in Applied Mechanics and Engineering 200: 3482–3494, 2011. (DOI: 10.1016/j.cma.2011.07.014)  
  68. Y P Lian, X Zhang, X Zhou, Z T Ma. A FEMP method and its application in modeling dynamic response of reinforced concrete subjected to impact loading.Computer Methods in Applied Mechanics and Engineering, 200(17-20): 1659-1670, 2011. (DOI:10.1016/j.cma.2011.01.019)  
  69. Y P Lian, X Zhang, X Zhou, S Ma, Y L Zhao. Numerical Simulation of Explosively Driven Metal by Material Point Method. International Journal of Impact Engineering, 38(4): 238-246, 2011.  (DOI: 10.1016/j.ijimpeng.2010.10.031)  
  70. P Huang, X Zhang, S Ma,X C Huang. Contact Algorithms for the Material Point Method in Impact and Penetration Simulation. International Journal for Numerical Methods in Engineering, 85(4): 498-517, 2011. (DOI: 10.1002/nme.2981
  71. Y T Zhang, X Zhang, Y Liu. An alternated grid updating parallel algorithm for material point method using OpenMP.  CMES: Computer Modeling in Engineering & Sciences, 69(2): 143-165, 2010. 
  72. Z T Ma, X Zhang, P Huang. An Object-Oriented MPM Framework for Simulation of Large Deformation and Contact of Numerous Grains. CMES: Computer Modeling in Engineering & Sciences, 55(1): 61-88, 2010. 
  73. X M Qiu, L H He, Y Q Qian, X Zhang. Plastic zone of semi-infinite crack in planar KAGOME and triangular lattices. ACTA MECHANICA SOLIDA SINICA. 22(3):213 - 225, 2009.
  74. S Ma, X Zhang, X M Qiu. Comparison study of MPM and SPH in modeling hypervelocity impact problems. International Journal of Impact Engineering, 36: 272-282, 2009. 
  75. S Ma, X Zhang, Y P Lian, X Zhou. Simulation of high explosive explosion using adaptive material point method, CMES: Computer Modeling in Engineering & Sciences, 39(2): 101-123, 2009 
  76. H K Wang, X Zhang, X M Qiu. Adaptive smoothed molecular dynamics for multiscale modeling, Computational Materials Science, 46(3): 713-715, 2009 
  77. P Huang, X Zhang, S Ma, H K Wang. Shared Memory OpenMP Parallelization of Explicit MPM and Its Application to Hypervelocity Impact. CMES: Computer Modelling in Engineering & Sciences. 38(2): 119-148, 2008 
  78. Y Liu, X Zhang, KY Sze, M Wang. Smoothed Molecular Dynamics for Large Step Time Integration. CMES: Computer Modeling in Engineering & Sciences,19(3): 177-192, 2007. 
  79. M Wang, X Zhang, Q S Zheng, Y Liu. A membrane-spring model for carbon nanotubes with the van der Waals interaction between non-bonded atoms, Nanotechnology 18, 375706, 2007. 
  80. M Wang, X M Qiu, X Zhang, Y J Yin. Equivalent parameter study of the mechanical properties of super carbon nanotubes, Nanotechnology 18, 295708, 2007.
  81. M Wang, X M Qiu, X Zhang. Mechanical properties of super honeycomb structures based on carbon nanotubes. Nanotechnology 18, 075711, 2007.
  82. X Zhang, K Y Sze, S Ma. An explicit material point finite element method for hyper velocity impact, International Journal for Numerical Methods in Engineering, 66:689-706, 2006. 
  83. M Wang, X Zhang, M W Lu, Y Liu. Effect of defects on resonance of carbon nanotubes as mass sensors,Applied Physics Letters,88, 113513, 2006. 
  84. M Wang, X Zhang, M W Lu. Nonlinear membrane-spring model for carbon nanotubes,Physical Review B,72, 205403, 2005. 
  85. Y Liu, KM Liew, Y C Hon and X Zhang. Numerical simulation and analysis of an electroactuated beam using a radial basis function. SMART MATERIALS AND STRUCTURES, 14 1163-1171, 2005. 
  86. Y Liu, X Zhang, M W Lu. Meshless Least-Squares Method for Solving the Steady-State Heat Conduction Equation. Tsinghua Science and Technology, 10(1): 61-66, 2005.
  87. C Liu, X Zhang, M W Lu. Fluid-structure interaction analysis of a hypothetical core disruptive accident in LMFBRs. Nuclear Engineering and Design, 235 (6): 701-712, 2005. 
  88. X F Pan, X Zhang, M W Lu. Meshless Galerkin least-square method. Computational Mechanics, 35(3): 182-189, 2005 
  89. Y Liu, X Zhang, M W Lu. A meshless method based on least-squares approach for steady- and unsteady-state heat conduction problems. Numerical Heat Transfer, 47(3): 257-275, 2005 
  90. J L Wegner, M M Yao, X Zhang. Dynamic Wave-Soil-Structure Interaction Analysis in the Time Domain, Computers & Structures, 83: 2206-2214, 2005 
  91. X F Pan, K Y Sze, X Zhang. An assessment of the meshless weighted least-squares method, Acta Mechanica Solida Sinica,17(3), 270-282, 2004 
  92. K Z Song, X Zhang, M W Lu. Meshless method based on collocation with consistent compactly supported radial basis functions. Acta Mechanica Sinica. 20(5), 551-557, 2004 
  93. Y P Yao, M W Lu, X Zhang. Elasto-plastic behavior of pipe subjected to steady axial load and cyclic bending. Nuclear Engineering and Design. 229, 189-197, 2004 
  94. K Z Song, X Zhang, M W Lu. Elasto-plastic analysis based on collocation with moving least square method. Acta Mechanica Solida Sinica, 16(2): 162-170, 2003 
  95. X Zhang, X H Liu, K Z Song, M W Lu. Least-square collocation meshless method, International Journal for Numerical Methods in Engineering, 51(9):1089-1100, 2001 
  96. X Zhang, X Liu, M W Lu, Y Chen. Imposition of essential boundary conditions by displacement constraint equations in meshless methods, Communications in Numerical Methods in Engineering, 17(3): 165-178, 2001 
  97. J L Wegner, X Zhang. Free vibrations of a three-dimensional soil-structure system, Earthquake Engineering and Structural Dynamics,30(1): 43-57, 2001 
  98. X Zhang, K Z Song, M W Lu. Meshless Methods Based on Collocation with Radial Basis Functions, Computational Mechanics 26(4): 333-343, 2000 
  99. X Zhang, M W Lu, J L Wegner. A 2-D meshless model for jointed rock structures, International Journal for Numerical Methods in Engineering 47(10): 1649-1661, 2000 
  100. X Zhang. Slope stability analysis based on the rigid finite element, Geotechnique 49(5):585-593, 1999 
  101. X Zhang, J L Wegner, J B Haddow, Three dimensional dynamic soil-structure interaction analysis in the time domain, Earthquake Engineering and Structural Dynamics 28: (12) 1501-1524 DEC 1999 
  102. X Zhang, M W Lu. Block-interfaces model for nonlinear numerical simulations of rock structures,International Journal of Rock Mechanics and Mining Sciences. 35(7), 983-990, 1998 
  103. L X Qian, X Zhang. Rigid finite element method and it's applications in engineering, ACTA MECHANICA SINICA, 11(1):44-50, 1995 
  104. X Zhang, L X Qian. Rigid finite element and limit analysis, ACTA MECHANICA SINICA, 9(2):156-162, 1993
English Conference Papers
  1. X Zhang.  Numerical Simulation of Impact and explosion problems with material point method. 3rd International Symposium on Computational Mechanics & 2nd Symposium on Computational Structural Engineering. 5-7 December, 2011, Taipei. (Semi-Plenary Lecture)
  2. X Zhang. Recent developments on MPM and its application in impact and explosion simulation. International Conference on Computational Methods (ICCM 2010), 19-21 Nov, 2010, Zhangjiajie, China (Invited lecture).
  3. H K Wang, X Zhang. The carbon nanotube composite simulation by materials point method. 18th European Conference on Fracture (ECF 18), August 30 - September 03, 2010, Dresden, Germany.
  4. Y P Lian, X Zhang, Z T Ma. A hybrid MP-FE method for modeling dynamic response of reinforced concrete subject to impact loading.  9th World Congress on Computational Mechanics and 4th Asian Pacific Congress on Computational Mechanics (WCCM/APCOM 2010), Sidney, Australia, 19-23 July 2010.
  5. H K Wang, X Zhang. Adaptive smoothed molecular dynamics for multiscale modelling. International Symposium on Computational Mechanics of Materials(IWCMM-18), Oct. 7 - 10, 2008, Beijing, China
  6. X Zhang, S Ma, P Huang. Adaptive material point method for shaped charge simulation, 8th World Congress on Computational Mechanics (WCCM8) & 5th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2008), 30 June - 4 July, 2008. Venice, Italy.
  7. S Ma, X Zhang. Material Point Method for Impact and Explosion Problems. International Symposium on Computational Mechanics (ISCM2007), Beijing: Tsinghua University Press & Springer , July 30 - August 1, 2007, Beijing, China (Semi - Plenary lecturer)
  8. S Ma, X Zhang. Comparison of MPM and SPH in hypervelocity impact simulation. 2nd Asia-Pacific International Conference on Computational Methods in Engineering (ICOME 2006), Hefei, China, Nov.14-16, 2006.
  9. S Ma, X Zhang. Material point method for hypervelocity impact problems. 7th World Congress on Computational Mechanics, Los Angeles, California, July 16 - 22, 2006.
  10. Y Liu, X Zhang, M W Lu. A Smoothed Molecular Dynamics with Eulerian Grid for Multiscale Simulation. 7th World Congress on Computational Mechanics, Los Angeles, California, July 16 - 22, 2006.
  11. X F Pan, X Zhang, M W Lu. Galerkin Collocation Meshless Method. Sixth World Congress on Computational Mechanics in conjunction with the Second Asain-Pacific Congress on Computational Mechanics, Sept. 5 - 10, 2004, Beijing, China.
  12. J L Wegner, M M Yao, X Zhang. Free vibration analysis of tall buildings with soil-structure interaction, Sixth World Congress on Computational Mechanics in conjunction with the Second Asain-Pacific Congress on Computational Mechanics, Sept. 5 - 10, 2004, Beijing, China.
  13. M M Yao, J L Wegner, X Zhang. Dynamic Response of a Three-Dimensional Soil-Structure System, ASME Mechanics and Materials Conference, Scottsdale , Arizona , June, 2003.
  14. X Zhang, X F Pan, W Hu, M W Lu. Meshless weighted least-square method. Proceedings of Fifth World Congress on Computational Mechanics, Vienna, Austria, July 7-12, 2002.
  15. Y P Yao, M W Lu, X Zhang. Energy dissipation of cyclically plastic bending and elastic-plastic dynamic response of piping, Proceedings of Asia-Pacific Vibration Conference, 560-564, Oct. 28 - Nov. 1, 2001, Hangzhou, China
  16. Yao , M.M., Wegner, J.L., Zhang, X. Dynamic Soil-Structure-Wave Interaction of a Tall Building, Structural Dynamics, EURODYN2002, Grundmann and Schueller (eds.), 1259-1264, Swets and Zeitlinger, Lisse, 2002.
  17. K Z Song, X Zhang, M W Lu. Collocation with Modified Compactly Supported Radial Basis Functions, Proceedings of International Conference on Computational Engineering & Sciences (ICES’01), Puerto Vallarta, 19-25 August, 2001
  18. K Z Song, X Zhang, M W Lu. Meshless collocation method with outer domain nodes,in: Proceedings of 6th U.S. National Congress on Computational Mechanics, August 1-4, 2001, Dearborn, MI, USA
  19. X Zhang, X H Liu, M W Lu. Finite point method based on least-square collocation, in: Proceedings of Internal Conference on Computational Engineering & Science, 1439-1444,August 20-25, 2000, Los Angeles, USA
  20. X Zhang, K Z Song, M W Lu. Hermite type collocation with radial basis functions, in: Proceedings of Internal Conference on Computational Engineering & Science, 1445-1450,August 20-25, 2000, Los Angeles, USA
  21. K Z Song, X Zhang, M W Lu. Meshless method based on collocation for elasto-plastic analysis, in: Proceedings of Internal Conference on Computational Engineering & Science, 1451-1456,August 20-25, 2000, Los Angeles, USA
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