Citation: | LIAN Yanping, ZHANG Fan, LIU Yan, ZHANG Xiong. Material point method and its applications[J]. Advances in Mechanics, 2013, 43(2): 237-264. doi: 10.6052/1000-0992-12-122 |
[1] |
Ambati R, Pan X F, Yuan H. 2012. Application of material point method for cutting process simulations. Computational Materials Science, 57: 102-110
|
[2] |
Andersen S, Andersen L. 2010. Modelling of landslides with the material-point method. Computational Geosciences, 14: 137-147.
|
[3] |
Anvar G, Sumanta A. 2008. A hybrid immersed boundary and material point method for simulating 3d fluid-structure interaction problems. International Journal for Numerical Methods in Fluids, 56: 2151-2177%
|
[4] |
Ayton G, Bardenhagen S G, McMurtry P, et al. 2001. Interfacing continuum and molecular dynamics: An application to lipid bilayers. Journal of Chemical Physics, 114 (15): 6913-6924
|
[5] |
Bardenhagen S G, Brackbill J U, Sulsky D. 2000. The material-point method for granular materials. Computer Methods in Applied Mechanics and Engineering, 187 (3-4): 529-541
|
[6] |
Bardenhagen S G, Brydon A D, Guilkey J E. 2005. Insight into the physics of foam densification via numerical simulation. Journal of the Mechanics and Physics of Solids, 53 (3): 597-617
|
[7] |
Bardenhagen S G, Guilkey J E, Roessig K M, et al. 2001. An improved contact algorithm for the material point method and application to stress propagation in granular material. Computer Modeling in Engineering & Sciences, 2 (4): 509-522
|
[8] |
Bardenhagen S G, Kober E M. 2004. The generalized interpolation material point method. Computer Modeling in Engineering & Sciences, 5 (6): 477-495
|
[9] |
Bardenhagen S G. 2002. Energy conservation error in the material point method for solid mechanics. Journal of Computational Physics, 180: 383-403
|
[10] |
Belytschko T, Krongauz Y, Organ D, et al. 1996. Meshless methods: An overview and recent developments. Computer Methods in Applied Mechanics and Engineering, 139 (1-4): 3-47
|
[11] |
Belytschko T, Liu W K, Moran B. 2000. Nonlinear Finite Elements for Continua and Structures. London:John Wiley & Sons Ltd.
|
[12] |
Benioff M R, Lazowska E D. 2005. Computational science: ensuring america's competitiveness. Technical report, President's Information Technology Advisory Committee
|
[13] |
Borodin O, Bedrov D, Smith G D, et al. 2005. Multiscale modeling of viscoelastic properties of polymer nanocomposites. Journal of Polymer Science: Part B: Polymer Physics, 43: 1005-1013
|
[14] |
Brackbill J U, Kothe D B, Ruppel H M. 1988. FLIP : A low-dissipation, particle-in-cell method for fluid flow. Computer Physics Communications, 48: 25-38
|
[15] |
Brackbill J U, Ruppel H M. 1986. FLIP : A method for adaptively zoned, particle-in-cell calculations of fluid flows in two dimensions. Journal of Computational Physics, 65: 314-343
|
[16] |
Chen H W, Hagiwara I, Tieu A K. 2011. A seamless coupling between molecular dynamics and material point method. Japan Journal of Industrial and Applied Mathematics. , 28: 55-67
|
[17] |
Chen J K, Beraun J E, Jih C J. 1999. An improvement for tensile instability in smoothed particle hydrodynamics. Computational Mechanics, 23 (4): 279-287
|
[18] |
Chen W D, Zhang F, Yang W M. 2012. Simulation of spall fracture based on material point method. In: 11th International Conference on Fracture and Damage Mechanics
|
[19] |
Chen Z, Feng R, Xin X, et al. 2003. A computational model for impact failure with shear-induced dilatancy. International Journal for Numerical Methods in Engineering, 56: 1979-1997
|
[20] |
Chen Z, Gan Y, Chen J K. 2008. A coupled thermo-mechanical model for simulating the material failure evolution due to localized heating. Computer Modeling in Engineering & Sciences, 26 (2): 123-137
|
[21] |
Chen Z, Hu W, Shen L M, et al. 2002. An evaluation of the MPM for simulating dynamic failure with damage diffusion. Engineering Fracture Mechanics, 69: 1873-1890
|
[22] |
Chen Z, Shen L M, Mai Y W, et al. 2005. A bifurcation-based decohesion model for simulating the transition from localization to decohesion with the MPM. Zeitschrift fur Angewandte Mathematik und Physick ZAMP, 56: 908-930
|
[23] |
Chiang W F, DeLisi M, Hummel T, et al. 2010. GPU acceleration of the generalized interpolation material point method.
|
[24] |
Coetzee C J, Basson A H, Vermeer P A. 2007. Discrete and continuum modelling of excavator bucket filling. Journal of Terramechanics, 44 (2): 177-186
|
[25] |
Coetzee C J, Vermeer P A, Basson A H. 2005. The modelling of anchors using the material point method. International Journal for Numerical and Analytical Methods in Geomechanics, 29: 879-895
|
[26] |
Colom A. 2011. Solving hydro-mechanical problems with the material point method. In: Proceedings of the 21st European Young Geotechnical Engineers' Conference Geotechnical Engineering: New Horizons. Rotterdam 2011
|
[27] |
Cummins S J, Brackbill J U. 2002. An implicit particle-in-cell method for granular materials. Journal of Computational Physics, 180: 506-548
|
[28] |
Daphalapurkar N P, Hanan J C, Phelps N B, et al. 2008. Tomography and simulation of microstructure evolution of a closed-cell polymer foam in compression. Mechanics of Advanced Materials and Structures, 15: 594-611
|
[29] |
Daphalapurkar N P, Lu H, Coker D, et al. 2007. Simulation of dynamic crack growth using the generalized interpolation material point (GIMP ) method. International Journal of Fracture, 143 (1): 79-102
|
[30] |
Dyka C T, Randles P W, Ingel R P. 1997. Stress points for tension instability in SPH. International Journal for Numerical Methods in Engineering, 40: 2325-2341
|
[31] |
Fluid Dynamics Group Theoretical Division. 2007. CartaBlanca Theory Manual: Multiphase Flow Equations and Numerical Methods
|
[32] |
Gan Y, Chen Z, Montgomery-Smith S. 2011. Improved material point method for simulating the zona failure response in piezo-assisted intracytoplasmic sperm injection. Computer Modeling in Engineering & Sciences, 73 (1): 45-76
|
[33] |
Gilabert F A, Cantavella V C, Sanchez E, et al. 2011. Modelling fracture process in ceramic materials using the material point method. A Letters Journal Exploring the Frontiers of Physics, 96:24002, 1-6
|
[34] |
Gilmanov A, Acharya S. 2008a. A computational strategy for simulating heat transfer and flow past deformable objects. International Journal of Heat and Mass Transfer, 51: 4415-4426
|
[35] |
Gilmanov A, Acharya S. 2008b. A hybrid immersed boundary and material point method for simulating 3D fluid-structure interaction problems. International Journal for Numerical Methods in Engineering, 56: 2151-2177
|
[36] |
Gingold R A, Monaghan J J. 1977. Smoothed particle hydrodynamics: theory and application to nonspherical stars. Monthly notices of the Royal Astronomical Society, 18: 375-389
|
[37] |
Gong W W, Liu Y, Zhang X, et al. 2012. Numerical investigation on dynamical response of aluminum foam subject to hypervelocity impact with material point method. Computer Modeling in Engineering & Sciences, 83 (5): 527-545
|
[38] |
Gong W W, Zhang X, Qiu X M. 2011. Numerical study of dynamic compression process of aluminum foam with material point method. Computer Modeling in Engineering & Sciences, 82 (3-4): 195-213
|
[39] |
宫伟伟. 2012. 泡沫铝动态力学性能的物质点法研究:[博士论文]. 北京:清华大学 (Gong W W. 2012. Numerical study of dynamical behaviors of aluminum foam using material point method: [Ph. D. Thesis]. Beijing:Tsinghua University (in Chinese))
|
[40] |
Guilkey J E, Hoying J B, Weiss J A. 2006. Computational modeling of multicellular constructs with the material point method. Journal of Biomechanics, 39: 2074-2086
|
[41] |
Guilkey J E, Weiss J A. 2003. Implicit time integration for the material point method: Quantitative and algorithm comparisons with the finite element method. International Journal for Numerical Methods in Engineering, 57:1323-1338
|
[42] |
Guillkey J E, Harman T B, Banerjee B. 2007. An eulerian-lagrangian approach for simulating explosions of energetic devices. Computers & Structures, 85: 660-674
|
[43] |
Guo Y J, Nairn J A. 2006. Three-dimensional dynamic fracture analysis using the material point method. Computer Modeling in Engineering & Sciences, 16 (3): 141-155
|
[44] |
Guo Y, Nairn J A. 2004. Calculation of $J$ integration and stress intensity factors using the material point method. Computer Modeling in Engineering & Sciences, 6: 295-308
|
[45] |
Guo Z, Yang W. 2006a. MPM /MD handshaking method for multiscale simulation and its application to high energy cluster impacts. International Journal of Mechanical Sciences, 48: 145-159
|
[46] |
Gupta V, Rajagopal S, Gupta N. 2011. A comparative study of meshfree methods for fracture. International Journal of Damage Mechanics, 20: 729-751
|
[47] |
Harlow F H. 1964. The particle-in-cell computing method for fluid dynamics. Methods in Computational Physics, 3: 319-43
|
[48] |
Hornung R D, Kohn S R. 2002. Managing application complexity in the samrai object-oriented framework. Concurrency and Computation: Practice and Experience, 14: 347-368
|
[49] |
黄鹏, 张雄, 马上, 等. 2010a. 基于OpenMP 的三维显式物质点法并行化研究. 计算力学学报, 27: 21-27 (Huang P, Zhang X, Ma S, et al. 2010. Parallelization of 3Dexplicit material point method using OpenMP. Chinese Journal of Computational Mechanics, 27: 21-27 (in Chinese))
|
[50] |
黄鹏. 2010b. 金属及岩土冲击动力学问题的物质点法研究:[博士论文]. 北京:清华大学 (Huang P. 2010. Material point method for metal and soil impact dynamics problems:[Ph. D. Thesis]. Beijing:Tsinghua University (in Chinese))
|
[51] |
Htike H, Chen W, Gu Y, et al. 2011. Material point method with rbf interpolation. Computer Modeling in Engineering & Sciences, 72: 247-272
|
[52] |
Hu P, Xue L, Mao S, et al. 2010. Material point method applied to fluid-structure interaction (FSI )/aeroelasticity problems. In: Proceedings of 8th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, 2010-1464
|
[53] |
Hu P, Xue L, Qu K, et al. 2009. Unified solver for modeling and simulation of nonlinear aeroelasticity and fluid-structure interactions. In: Proceedings of AIAA Atmospheric Flight Mechanics Conference, AIAA-2009-6148. Chicago
|
[54] |
Hu W Q, Chen Z. 2006. Model-based simulation of the synergistic effects of blast and fragmentation on a concrete wall using the MPM. International Journal of Impact Engineering, 32 (12): 2066-2096
|
[55] |
Hu W, Chen Z. 2003. A multi-mesh MPM for simulating the meshing process of spur gears. Computers & Structures, 81: 1991-2002
|
[56] |
Huang P, Zhang X, Ma S, et al. 2008. Shared memory openmp parallelization of explicit MPM and its application to hypervelocity impact. Computer Modeling in Engineering & Sciences, 38: 119-147
|
[57] |
Huang P, Zhang X, Ma S, et al. 2011. Contact algorithms for the material point method in impact and penetration simulation. International Journal for Numerical Methods in Engineering, 85 (4): 498-517.
|
[58] |
Humphrey A, Meng Q Y, Berzins M, et al. 2012. Radiation modeling using the uintah heterogeneous CPU/GPU runtime system.
|
[59] |
Idelsohn S R, Marti J, Limache A, et al. 2008. Unified lagrangian formulation for elastic solids and incompressible fluids: Application to fluid-structure interaction problems via the pfem. Computer Methods in Applied Mechanics and Engineering, 197 (19-20): 1762-1776
|
[60] |
Ionescu I, Guilkey J E, Berzins M, et al. 2006. Simulation of soft tissue failure using the material point method. Journal of Biomechanical Engineering, 128: 917-924
|
[61] |
Johnson G R, Stryk R A, Beissel S R. 1996. SPH for high velocity impact computations. Computer Methods in Applied Mechanics and Engineering, 139 (1-4): 347-373
|
[62] |
Lemiale V, Nairn J, Hurmane A. 2010. material point method simulation of equal channel angular pressing involving large plastic strain and contact through sharp corners. Computer Modeling in Engineering & Sciences, 70: 41-46
|
[63] |
Lenardic A, Moresi L, Muhlhaus H. 2000. The role of mobile belts for the longevity of deep cratonic lithosphere: the crumpled zone model. Geophys. Res. Lett. , 27: 1235-1238
|
[64] |
Li F, Pan J Z, Sinka C. 2011a. Modelling brittle impact failure of disc particles using material point method. International Journal of Impact Engineering, 38: 653-660
|
[65] |
Li F, Pan J Z, Sinka S. 2011b. Modelling adhesive contact between fine particles using material point method. Mechanics of Materials, 43: 157-167
|
[66] |
Lian Y P, Zhang X, Liu Y. 2011c. 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
|
[67] |
Lian Y P, Zhang X, Liu Y. 2012a. 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
|
[68] |
Lian Y P, Zhang X, Liu Y. 2012b. Coupling between finite element and material point method for problems with extreme deformation. Theoretical & Applied Mechanics Letters, 2: 021003
|
[69] |
Lian Y P, Zhang X, Zhou X, et al. 2011a. Numerical simulation of explosively driven metal by material point method. International Journal of Impact Engineering, 38: 237-245
|
[70] |
Lian Y P, Zhang X, Zhou X, et al. 2011b. 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
|
[71] |
廉艳平. 2012. 自适应物质点有限元法及其在冲击侵彻问题中的应用:[博士论文]. 北京:清华大学 (Lian Y P 2012. An adaptive material point finite element method and its application in impact/penetration problems:[Ph. D. Thesis]. Beijing:Tsinghua University (in Chinese))
|
[72] |
Liu G R, Liu M B. 2003. Smoothed Particle Hydrodynamics: A Meshfree Particle Method. Singapore: World Scientific
|
[73] |
Liu M B, Liu G R, Lam K Y. 2002. Investigation into water mitigations using a meshles particle method. Shock Waves, 12 (3): 181-195
|
[74] |
Liu Y, Wang H K, Zhang X. 2013. A multiscale framework for high-velocity impact process with combined material point method and molecular dynamics. International Journal of Mechanics and Materials in Design, in press
|
[75] |
Liu Y, Zhang X, Lu M W. 2005. A meshless method based on least-squares approach for steady- and unsteady-state heat conduction problems. Numerical Heat Transfer, Part B, 47: 257-275
|
[76] |
刘欣. 2011. 无网格方法. 北京:科学出版社 (Liu X. 2011. Meshfree Method Beijing: Science Press (in Chinese))
|
[77] |
Love E, Sulsky D L. 2006. An unconditionally stable, energy-momentum consistent implementation of the material point method. Computer Methods in Applied Mechanics and Engineering, 195 (33-36): 3903-3925
|
[78] |
Lu H, Daphalapurkar N P, Wang B, et al. 2006. Multiscale simulation form atomistic to continuum - coupling molecular dynamics (MD ) with the material point method (MPM ). Philosophical Magazine, 86 (20): 2971-2994
|
[79] |
Lucy L B. 1977. A numerical approach to the testing of the fission hypothesis. The Astrophysical Journal, 8 (12): 1013-1024
|
[80] |
Lysmer J, Kuhlemeyer R L. 1969. Finite dynamic model for infinite media. Journal of the Engineering Mechanics Division ASCE, 95: 859-877
|
[81] |
Ma J, Lu H, Wang B, Roy S, et al. 2005. Multiscale simulations using generalized interpolation material point (GIMP ) method and samrai parallel processing. Computer Modeling in Engineering & Sciences, 8 (2): 135-152
|
[82] |
Ma J. 2006. Multiscale simulation using the generalized interpolation material point method, discrete dislocations and molecular dynamics:[Ph. D. Thesis]. Oklahoma:Oklahoma State University
|
[83] |
Ma S, Zhang X, Lian Y P et al. 2009a. Simulation of high explosive explosion using adaptive material point method. Computer Modeling in Engineering & Sciences, 39 (2): 101-123
|
[84] |
Ma S, Zhang X, Qiu X M. 2009b. Comparison study of MPM and SPH in modeling hypervelocity impact problems. International Journal of Impact Engineering, 36: 272-282
|
[85] |
马上, 张雄, 邱信明. 2006. 超高速碰撞问题的三维物质点法. 爆炸与冲击, 26 (3): 273-278 (Ma S, Zhang X, Qiu X M. 2006. Three dimensional material point method for hypervelocity impact. Explosion and Shock Waves, 26 (3): 273-278 (in Chinese))
|
[86] |
马上, 张雄. 2009b. 聚能装药射流形成的自适应物质点法模拟. 固体力学学报, 30 (5): 504-508 (Ma S, Zhang X. 2009. Adaptive material point method for shaped charge jet formation. Chinese Journal of Solid Mechanics, 30 (5): 504-508 (in Chinese))
|
[87] |
马上. 2005. 超高速碰撞问题的三维物质点法模拟:[硕士论文]. 北京:清华大学 ( Ma S. 2005. Material point method for 3D hypervelocity impact simulation:[Master Thesis]. Beijing:Tsinghua University (in Chinese))
|
[88] |
马上. 2009a. 冲击爆炸问题的物质点无网格法研究:[博士论文]. 北京:清华大学 (Ma S. 2009. Material point meshfree methods for impact and explosion problems:[Ph. D. Thesis]. Beijing:Tsinghua University (in Chinese))
|
[89] |
Ma Z T, Zhang X, Huang P. 2010. An object-oriented MPM framework for simulation of large deformation and contact of numerous grains. Computer Modeling in Engineering & Sciences, 55 (1): 61-87
|
[90] |
Matsumoto N, Nairn J A. 2009. The fracture toughness of medium density fiberboard (MDF ) including the effects of fiber bridging and crack--plane interference. Engineering Fracture Mechanics, 76: 2748-2757
|
[91] |
Monaghan J J. 2000. SPH without a tensile instability. Journal of Computational Physics, 159: 290-311
|
[92] |
Nairn J A . 2003. Material point method calculations with explicit cracks. Computer Modeling in Engineering & Sciences, 4: 649-663
|
[93] |
Nairn J A. 2006. On the calculation of energy release rates for cracked laminates with residual stresses. International Journal of Fracture, 139: 267-293
|
[94] |
Nairn J A. 2007. Numerical implementation of imperfect interfaces. Computational Materials Science, 40: 525-536
|
[95] |
Pan X F, Xu A G, Zhang G C, et al. 2008. Generalized interpolation material point approach to high melting explosive with cavities under shock. Journal of Physics D: Applied Physics, 41 (1): 1-9
|
[96] |
Parker S G, Guilkey J, Harman T. 2006. A component-based parallel infrastructure for simulation of fluid-structure interaction. Engineering with Computers, 22: 277-292
|
[97] |
Parker S G. 2006. A component-based architecture for parallel multi-physics pde simulaiton. Future Generation Computer Systems, 22: 204-216
|
[98] |
Purdue University. 2009. Nnsa center for prediction of reliability, integrity and survivability of microsystems annual report. Technical report, Purdue University
|
[99] |
Sadeghirad A, Brannon R M, Burghardt J. 2011. A convected particle domain interpolation technique to extend applicability of the material point method for problems involving massive deformations. International Journal for Numerical Methods in Engineering, 86: 1435-1456
|
[100] |
Schreyer H L, Sulsky D, Zhou S J. 2002. Modeling delamination as a strong discontinuity with the material point method. Computer Methods in Applied Mechanics and Engineering, 191: 2483-2507
|
[101] |
Shen L M, Chen Z. 2005. A silent boundary scheme with the material point method for dynamic analyses. Computer Modeling in Engineering & Sciences, 7 (3): 305-320
|
[102] |
Shen L M. 2009. A rate-dependent damage/decohesion model for simulating glass fragmentation under impact using the material point method. Computer Modeling in Engineering & Sciences, 49 (1): 23-45
|
[103] |
Shen L, Chen Z. 2005. A multi-scale simulation of tungsten film delamination from silicon substrate. International Journal of Solids and Structures, 42: 5036-5056
|
[104] |
Shen Y L, Li W, Sulsky D L, et al. 2000. Localization of plastic deformation along grain boundaries in a hardening material. International Journal of Mechanical Sciences, 42: 2167-2189
|
[105] |
Shin W, Miller G R, Arduino P, et al. 2010. Dynamic meshing for material point method computations. World Academy of Science, Engineering and Technology I: Mathematical and Computational Sciences
|
[106] |
Smolinski P, Palmer T. 2000. Procedures for multi-time step integration of element-free galerkin methods for diffusion problems. Computers and Structures, 77: 171-183%
|
[107] |
Steffen M, Kirby R M, Berzins M. 2010. Decoupling and balancing of space and time errors in the material point method (MPM ). International Journal for Numerical Methods in Engineering, 82: 1207-1243
|
[108] |
Sulsky D, Schreyer H L. 1996. Axisymmetric form of the material point method with applications to upsetting and taylor impact problems. Computer Methods in Applied Mechanics and Engineering, 139 (1-4): 409-429
|
[109] |
Sulsky D, Chen Z, Schreyer H L. 1994. A particle method for history-dependent materials. Computer Methods in Applied Mechanics and Engineering, 118 (1-2): 179-196
|
[110] |
Sulsky D, Kaul A. 2004a. Implicit dynamic in the material-point-method. Computer Methods in Applied Mechanics and Engineering, 193 (12-14): 1137-1170
|
[111] |
Sulsky D, Peterson K. 2011. Toward a new elastic--decohesive model of arctic sea ice. Physica D, 240: 1674-1683
|
[112] |
Sulsky D, Schreyer L. 2004b. MPM simulation of dynamic material failure with a decohesion constitutive model. European Journal of Mechanics A/Solids, 23: 423-445
|
[113] |
Sulsky D, Zhou S J, Schreyer H L. 1995. Application of a particle-in-cell method to solid mechanics. Computer Physics Communications, 87 (1-2): 236-252
|
[114] |
Sun L, Mathur S R, Murthy J Y. 2010. An unstructured finite-volume method for incompressible flows with complex immersed boundaries. Numerical Heat Transfer, Part B: Fundamentals, 58: 217-241
|
[115] |
Tan H L, Nairn J A. 2002. Hierarchical, adaptive, material point method for dynamic energy release rate calculations. Computer Methods in Applied Mechanics and Engineering, 191 (19-20):2095-2109
|
[116] |
Wallstedt P C, Guilkey J E. 2007. Improved velocity projection for the material point method. Computer Modeling in Engineering & Sciences, 19 (3): 223-232
|
[117] |
Wallstedt P C, Guilkey J E. 2008. An evaluation of explicit time integration schemes for use with the generalized interpolation material point method. Journal of Computational Physics, 227: 9628-9642
|
[118] |
Wang B, Karuppiah V, Lu H, et al. 2005. Two-dimensional mixed mode crack simulaiton using the material point method. Mechanics of Advanced Materials and Structures, 12: 471-484
|
[119] |
Wang H K, Liu Y Zhang X. 2012. Numerical simulation of carbon nanotube reinforced composite by material point method. Computational Materials Science, 57: 23-29
|
[120] |
Wang Y X, Beom H G, Sun M, et al. 2011. Numerical simulation of explosive welding using the material point method. International Journal of Impact Engineering, 38: 51-60
|
[121] |
王汉奎. 2011. 金属及碳管复合材料力学行为物质点类方法研究:[博士论文]. 北京:清华大学 (Wang H K. 2011. Material point method for metal and carbon nanotube composite materials:[Ph. D. Thesis]. Beijing:Tsinghua University (in Chinese))
|
[122] |
王津龙, 刘天云, 张楚汉. 2005. 堆石体柱状试件成型过程的材料点法仿真. 清华大学学报 (自然科学版), 45 (12): 1604-1607 (Wang J L, Liu T Y, Zhang C H. 2005. Simulation of cylindrical stone pile based on the material point method. Journal of Tsinghua University (Science and Technology), 45 (12): 1604-1607 (in Chinese))
|
[123] |
王宇新, 陈震, 孙明. 2006a. 滑移爆轰问题无网格MPM 法数值模拟. 力学与实践, 29 (3): 20-25 (Wang Y X, Chen Z, S M. 2006. Numerical simulation of slippage detonation by material point method--MPM. Mechanics in Engineering, 29 (3): 20-25 (in Chinese))
|
[124] |
王宇新, 孙明, 张建臣. 2008. 无网格MPM 法三维前处理系统设计. 计算力学学报, 25: 392-396 (Wang Y X, Sun M, Zhang J. 2008. Implementation of 3D preprocessing program for material point method. Chinese Journal of Computational Mechanics, 25: 392-396 (in Chinese))
|
[125] |
王宇新. 2006b. 多相介质爆炸冲击响应物质点法分析:[博士论文]. 大连:大连理工大学 (Wang Y X. 2006. Numerical analysis of explosion/impact response involved multiple materials using the material point method: [Ph. D. Thesis]. Dalian:Dalian University of Technology (in Chinese))
|
[126] |
Wieckowski Z, Youn S K, Yeon J H. 1999. A particle-in-cell solution to the silo discharging problem. International Journal for Numerical Methods in Engineering, 45: 1203-1225
|
[127] |
Wieckowski Z. 2004. The material point method in large strain engineering problems. Computer Methods in Applied Mechanics and Engineering, 193 (39-41): 4417-4438
|
[128] |
Xu A G, Zhang G C, Li H, et al. 2011. Dynamical similarity in shock wave response of porous material: From the view of pressure. Computers and Mathematics with Applications, 61: 3618-3627
|
[129] |
许爱国, 张广财, 应阳君, 等. 2010. 多孔材料冲击特性的数值研究. 力学学报, 42 (6):1138-1148 (Xu A G, Zhang G C, Ying Y J. 2010. Numerical study on porous materials under shock. Chinese Journal of Theoretical and Applied Mechanics, 42 (6): 1138-1148 (in Chinese))%
|
[130] |
Xue L P, Borodin O, Smith G D, et al. 2006. Micromechanics simulations of the viscoelastic properties of highly filled composites by the material point method (MPM ). Modelling and Simulation in Materials Science and Engineering, 14 (4): 703-720
|
[131] |
York II A R, Sulsky D, Schreyer H L. 1999. The material point method for simulation of thin membranes. International Journal for Numerical Methods in Engineering, 44: 1429-1456
|
[132] |
York II A R, Sulsky D, Schreyer H L. 2000. Fluid-membrane interaction based on the material point method. International Journal for Numerical Methods in Engineering, 48: 901-924
|
[133] |
Zhang D Z, Ma X, Giguere P T. 2011. Material point method enhanced by modified gradient of shape function. Journal of Computational Physics, 230: 6379-6398%
|
[134] |
Zhang D Z, Ma X, Giguere P. 2009c. Computation of multi-material interactions using material point method. In: International Conference on Particle Based Methods
|
[135] |
Zhang D Z, Zou Q, Ma X, et al. 2008a. Simulation of large deformation of materials using multiphase flow methods.%
|
[136] |
Zhang D Z, Zou Q, VanderHeyden W B, et al. 2008b. Material point method applied to multiphase flows. Journal of Computational Physics, 227: 3159-3173
|
[137] |
Zhang H W, Wang K P, Chen Z. 2009. Material point method for dynamic analysis of saturated porous media under external contact/impact of solid bodies. Computer Methods in Applied Mechanics and Engineering, 198: 1456-1472
|
[138] |
Zhang X, Sze K Y, Ma S. 2006. An explicit material point finite element method for hyper-velocity impact. International Journal for Numerical Methods in Engineering, 66 (4): 689-706
|
[139] |
Zhang Y T, Zhang X, Liu Y. 2010. An alternated grid updating parallel algorithm for material point method using openmp. Computer Modeling in Engineering & Sciences, 69 (2): 143-165
|
[140] |
张洪武, 王鲲鹏, 陈震. 2009a. 基于物质点方法饱和多孔介质动力学模拟 (I): 耦合物质点方法. 岩土工程学报, 31 (10): 1505-1011 (Zhang H W, Wang K P, Chen Z. 2009. Material point method for dynamic analysis of saturated porous media (I): coupling material point method, Chinese Journal of Geotechnical Engineering. Chinese Journal of Geotechnical Engineering, 31 (10): 1505-1011 (in Chinese))
|
[141] |
张洪武, 王鲲鹏, 陈震. 2009b. 基于物质点方法饱和多孔介质动力学模拟 (II): 饱和多孔介质与固体间动力接触分析. 岩土工程学报, 31 (11): 1672-1679 (Zhang H W, Wang K P, Chen Z. 2009. Material point method for dynamic analysis of saturated porous media (II): dynamic contact analysis between saturated porous media and solid bodies. Chinese Journal of Geotechnical Engineering, 31 (11): 1672-1679 (in Chinese))
|
[142] |
张洪武, 王鲲鹏. 2010. 基于物质点方法饱和多孔介质动力学模拟 (III): 两相物质点方法. 岩土工程学报, 32 (4): 507-513 (Zhang H W, Wang K P. 2010. Material point method for dynamic analysis of saturated porous media (III): two-phase material point method. Chinese Journal of Geotechnical Engineering, 2010, 32 (4): 507-513 (in Chinese))
|
[143] |
张雄, 廉艳平, 杨鹏飞, 等. 2011. 冲击爆炸问题的三维物质点法数值仿真. 计算机辅助工程, 20 (4): 29-37 (Zhang X, Lian Y P, Yang P F et al. 2011. 3D simulation based on material point method for impact and explosion problems Computer Aided Engineering, 20 (4): 29-37 (in Chinese))
|
[144] |
张雄, 刘岩, 马上. 2009. 无网格法的理论及应用. 力学进展, 39 (1): 1-36 (Zhang X, Liu Yan, Ma S. 2009. Meshfree methods and their applications. Advances in Mechanics, 39 (1): 1-36 (in Chinese))
|
[145] |
张雄, 刘岩. 2004. 无网格法. 北京: 清华大学出版社/Springer (Zhang X, Liu Y. 2004. Meshless Methods Beijing: Tsinghua University Press/Springer (in Chinese))
|
[146] |
张雄, 王天舒. 2007. 计算动力学. 北京:清华大学出版社 (Zhang X, Wang T S, 2007. Computational Dynamics. Beijing:Tsinghua University Press (in Chinese))
|
[147] |
张忠, 陈卫东, 杨文淼. 2011. 非均匀固体炸药冲击起爆的物质点法. 爆炸与冲击, 31 (1): 25-30 (Zhang Z, Chen W D, Yang W M. 2011. The material point method for shock-to-detonation transition of heterogeneous solid explosive. Explosion and Shock Waves, 31 (1): 25-30 (in Chinese))
|
[148] |
郑勇刚, 顾元宪, 陈震. 2006. 薄膜破坏过程数值模拟的MPM 方法. 力学学报, 38: 347-355 (Zheng Y G, Gu Y X, Chen Z. 2006. Numerical simulation of thin film failure with MPM. Chinese Journal of Theoretical and Applied Mechanics, 38: 347-355 (in Chinese))
|
[149] |
Zhou S Z, Zhang Z, Ma H L. 2012. Numerical simulation of human head impact using the material point method. International Journal of Computational Methods, Accepted.
|
[150] |
周双珍, 张雄, 马红磊. 2013a. 不同骨密度下人体脊柱着陆冲击响应的数值模拟. 医用生物力学, Accepted (Zhou S Z, Zhang X, Ma H L. 2013. Numerical simulation of human spine to landing impact loading with different bone mineral density. Journal of medical Biomechanics, Accepted (in Chinese))
|
[151] |
周双珍, 张雄, 马红磊. 2013b. 利用物质点法研究不同头部模型对头部碰撞动态响应的影响. 医用生物力学, 28 (1): 74-79 (Zhou S Z, Zhang X, Ma H L. 2013. Effects from different head models on dynamic responses of the head impact using material point method. Journal of Medical Biomechanics, 28 (1): 74-79 (in Chinese))
|
[152] |
Zou Q, Zhang D Z, VanderHeyden W B et al. 2004. Application of a FLIP -MPM -MFM method for simulating weapon-target interaction. In: 75th Shock & Vibration Symposium
|
[153] |
Zou Q, Zhang D Z, VanderHeyden W B. 2005. The application of an MPM -MFM method for simulating weapon-target interaction. In: 12th International Symposium on Interaction of the Effects of Munitions with Structures
|