The Material Point Method: A Continuum-Based Particle Method for Extreme Loading Cases (Tsinghua University Press Computational Mechanics Series) - Hardcover

Über die Autorinnen und Autoren

Xiong Zhang received his Ph.D. in Computational Mechanics from the Dalian University of Technology in 1992. He is now a professor in the School of Aerospace Engineering at Tsinghua University, and the Associate Editor of the International Journal of Mechanics and Materials in Design. His selected honors include the New Century Excellent Talents in University (Ministry of Education of China, 2004), the First prize (2008) and Second prize (2009) for Natural Science from the Ministry of Education of China, the ICACM Fellows Award (2011), the Beijing Municipal Famous Teacher Award for Higher Education (2015) and the Qian Lingxi Computational Mechanics Award (Achievement Award, 2016). His current research interests focus on numerical modeling of extreme events, such as hypervelocity impact, blast, bird impact, penetration, perforation and fluid-structure interaction. He has published 3 monographs and 3 textbooks in Chinese. He was included in the list of Elsevier’s “Most Cited Chinese Researchers” in 2015.

His research area is in Computation Mechanics with a recent focus on multiscale modeling and simulation of the multiphysical phenomena involved in structural failure subjected to extreme loading conditions. Before joining MU in 1995, he was a professional staff member at New Mexico Engineering Research Institute as well as in the Department for the Waste Isolation Pilot Project/Performance Analysis Code Development at Sandia National Laboratories.

Among his honors and awards are the Fellow of ASME, the Fellow of the ICACM, the Yangtze visiting professor and Qianren-Plan visiting professor appointed by the Ministry of Education in China, the Faculty Research Award in the College of Engineering at MU, the Outstanding Youth Award (Oversea) from the National Natural Science Foundation of China, and the NSF-CAREER Award. He received his Ph.D. in solid and computational mechanics from the University of New Mexico in 1989.

associate professor in the School of Aerospace Engineering.His research interests include multiscale simulation, meshfree particle methods and impact dynamics.

He received the Natural Science Award from Chinese Ministry of Education in 2009, Du Qing-Hua Medal & Young Researcher Award of Computational Methods in Engineering in 2012, the ICACM Young Investigator Award in 2013.

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The Material Point Method systematically introduces the theory, code design, and application of the material point method (MPM), as well as its recent extensions. The subjects covered include: the spatial and the temporal discretization of MPM; frequently used strength models and equations of state for materials; contact algorithms in MPM; adaptive MPM; hybrid/coupled material point finite element method; object-oriented programming of MPM; and the application of MPM in impact, explosion, and metal forming. Recent developments in impact/explosion are also described, including efficiency improvements, memory storage, coupling/combination with the finite element method,contact algorithms and their application in problems related to extreme loading. Key Features A users guide and several numerical examples of the MPM3D-F90 code are presented, for which the input data files can be downloaded from: http://mpm3d.comdyn.cn. Constitutive models which describe different types of material behaviors, with a focus on extreme events. The computer implementation of these constitutive models is specified and corresponding source codes are provided Applications of MPM and its extensions in extreme events such as transient crack propagation, impact/penetration, blast, fluidstructure interaction, and biomechanical responses to extreme loading