The Material Point Method for Geotechnical Engineering

This practical guide provides the best introduction to large deformation material point method (MPM) simulations for geotechnical engineering. It provides the basic theory, discusses the different numerical features used in large deformation simulations, and presents a number of applications -- providing references, examples and guidance when using MPM for practical applications. MPM covers problems in static and dynamic situations within a common framework. It also opens new frontiers in geotechnical modelling and numerical analysis. It represents a powerful tool for exploring large deformation behaviours of soils, structures and fluids, and their interactions, such as internal and external erosion, and post-liquefaction analysis; for instance the post-failure liquid-like behaviours of landslides, penetration problems such as CPT and pile installation, and scouring problems related to underwater pipelines. In the recent years, MPM has developed enough for its practical use in industry, apart from the increasing interest in the academic world.

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  • Author : James Fern
  • Publisher : CRC Press
  • Pages : 420 pages
  • ISBN : 0429650663
  • Rating : 4/5 from 21 reviews
CLICK HERE TO GET THIS BOOKThe Material Point Method for Geotechnical Engineering

The Material Point Method for Geotechnical Engineering

The Material Point Method for Geotechnical Engineering
  • Author : James Fern,Alexander Rohe,Kenichi Soga,Eduardo Alonso
  • Publisher : CRC Press
  • Release : 30 January 2019
GET THIS BOOKThe Material Point Method for Geotechnical Engineering

This practical guide provides the best introduction to large deformation material point method (MPM) simulations for geotechnical engineering. It provides the basic theory, discusses the different numerical features used in large deformation simulations, and presents a number of applications -- providing references, examples and guidance when using MPM for practical applications. MPM covers problems in static and dynamic situations within a common framework. It also opens new frontiers in geotechnical modelling and numerical analysis. It represents a powerful tool for

The Material Point Method for Geotechnical Engineering

The Material Point Method for Geotechnical Engineering
  • Author : James Fern,Alexander Rohe,Kenichi Soga,Eduardo Alonso
  • Publisher : CRC Press
  • Release : 01 February 2019
GET THIS BOOKThe Material Point Method for Geotechnical Engineering

This practical guide provides the best introduction to large deformation material point method (MPM) simulations for geotechnical engineering. It provides the basic theory, discusses the different numerical features used in large deformation simulations, and presents a number of applications -- providing references, examples and guidance when using MPM for practical applications. MPM covers problems in static and dynamic situations within a common framework. It also opens new frontiers in geotechnical modelling and numerical analysis. It represents a powerful tool for

The Material Point Method

The Material Point Method
  • Author : Xiong Zhang,Zhen Chen,Yan Liu
  • Publisher : Academic Press
  • Release : 26 October 2016
GET THIS BOOKThe Material Point Method

The Material Point Method: A Continuum-Based Particle Method for Extreme Loading Cases systematically introduces the theory, code design, and application of the material point method, covering subjects such as the spatial and temporal discretization of MPM, frequently-used strength models and equations of state of materials, contact algorithms in MPM, adaptive MPM, the hybrid/coupled material point finite element method, object-oriented programming of MPM, and the application of MPM in impact, explosion, and metal forming. Recent progresses are also stated in

Innovative Numerical Approaches for Multi-Field and Multi-Scale Problems

Innovative Numerical Approaches for Multi-Field and Multi-Scale Problems
  • Author : Kerstin Weinberg,Anna Pandolfi
  • Publisher : Springer
  • Release : 24 June 2016
GET THIS BOOKInnovative Numerical Approaches for Multi-Field and Multi-Scale Problems

This book provides readers with a detailed insight into diverse and exciting recent developments in computational solid mechanics, documenting new perspectives and horizons. The topics addressed cover a wide range of current research, from computational materials modeling, including crystal plasticity, micro-structured materials, and biomaterials, to multi-scale simulations of multi-physics phenomena. Particular emphasis is placed on pioneering discretization methods for the solution of coupled non-linear problems at different length scales. The book, written by leading experts, reflects the remarkable advances that

The Material Point Method for Solid and Fluid Simulation

The Material Point Method for Solid and Fluid Simulation
  • Author : Qi Guo
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKThe Material Point Method for Solid and Fluid Simulation

The Material Point Method (MPM) has shown its high potential for physics-based simulation in the area of computer graphics. In this dissertation, we introduce a couple of improvements to the traditional MPM for different applications and demonstrate the advantages of our methods over the previous methods. First, we present a generalized transfer scheme for the hybrid Eulerian/Lagrangian method: the Polynomial Particle-In-Cell Method (PolyPIC). PolyPIC improves kinetic energy conservation during transfers, which leads to better vorticity resolution in fluid simulations

Numerical Methods in Geotechnical Engineering

Numerical Methods in Geotechnical Engineering
  • Author : Michael A. Hicks,Ronald B.J. Brinkgreve,Alexander Rohe
  • Publisher : CRC Press
  • Release : 29 May 2014
GET THIS BOOKNumerical Methods in Geotechnical Engineering

Numerical Methods in Geotechnical Engineering contains the proceedings of the 8th European Conference on Numerical Methods in Geotechnical Engineering (NUMGE 2014, Delft, The Netherlands, 18-20 June 2014). It is the eighth in a series of conferences organised by the European Regional Technical Committee ERTC7 under the auspices of the International

The Material Point Method for Simulating Elastoplastic Materials

The Material Point Method for Simulating Elastoplastic Materials
  • Author : Chuyuan Fu
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKThe Material Point Method for Simulating Elastoplastic Materials

Simulation in computer graphics must accommodate a wide range of material behaviors under large deformation, topological changes, contact or collision. This dissertation focuses on hybrid Lagrangian/Eulerian methods, especially the Material Point Method (MPM) in computer animation, and we list the major contributions here: First, we simulate sand dynamics using an elastoplastic, continuum assumption. We demonstrate that the Drucker-Prager plastic flow model combined with a Hencky-strain-based hyperelasticity accurately recreates a wide range of visual sand phenomena with moderate computational expense.

The Material Point Method for the Physics-based Simulation of Solids and Fluids

The Material Point Method for the Physics-based Simulation of Solids and Fluids
  • Author : Chenfanfu Jiang
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKThe Material Point Method for the Physics-based Simulation of Solids and Fluids

Simulating fluids and solid materials undergoing large deformation remains an important and challenging problem in Computer Graphics. The dynamics of these materials usually involve dramatic topological changes and therefore require sophisticated numerical approaches to achieve sufficient accuracy and visual realism. This dissertation focuses on the Material Point Method (MPM) for simulating solids and fluids for use in computer animation, and it makes four major contributions: First, we introduce new MPM for simulating viscoelastic fluids, foams and sponges. Our second contribution

Landslides in Sensitive Clays

Landslides in Sensitive Clays
  • Author : Vikas Thakur,Jean-Sébastien L'Heureux,Ariane Locat
  • Publisher : Springer
  • Release : 23 May 2017
GET THIS BOOKLandslides in Sensitive Clays

This book gathers the most recent scientific research on the geological, geotechnical and geophysical aspects of slope failure in sensitive clays. Gathering contributions by international experts, it focuses on understanding the complete and practical spectrum of challenges presented by landslides in such complex materials. Based on sound and validated research results, the book also presents several recommendations that could be implemented in the guidelines or code-of-practice. These recommendations cover topics including the characterization and behavior of sensitive clays; the pre-failure,

Recent Advances in Structural Integrity Analysis - Proceedings of the International Congress (APCF/SIF-2014)

Recent Advances in Structural Integrity Analysis - Proceedings of the International Congress (APCF/SIF-2014)
  • Author : Lin Ye
  • Publisher : Woodhead Publishing
  • Release : 10 February 2015
GET THIS BOOKRecent Advances in Structural Integrity Analysis - Proceedings of the International Congress (APCF/SIF-2014)

The proceedings of the International Congress (c) include about 120 papers selected out of 160 papers submitted for presentations at APCF/SIF-2014, to be held in Sydney, Australia, December 9-12, 2014, and uniting the Asian-Pacific Conference on Fracture and Strength 2014 (APCFS-2014) with the International Conference on Structural Integrity and Failure (SIF-2014). The congress will be hosted by The University of Sydney and co-organized by Australia Fracture Group (AFG), the Chinese Mechanical Engineering Society, Materials Institution (CMES-MI), the Korean Society of Mechanical Engineers, Materials

A Material Point Method for Complex Fluids

A Material Point Method for Complex Fluids
  • Author : Daniel Ram
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKA Material Point Method for Complex Fluids

We present a novel Material Point Method for simulating complex materials. The method achieves plasticity effects via the temporal evolution of the left elastic Cauchy-Green strain. We recast the upper-convected derivative of the strain in the Oldroyd-B constitutive model as a plastic flow and are able to simulate elastic and viscoelastic effects. Our model provides a volume-preserving rate-based description of plasticity that does not require singular value decompositions. Our semi-implicit discretization allows for high-resolution simulations. We also present novel discretizations

Development of Modifications to the Material Point Method for the Simulation of Thin Membranes, Compressible Fluids, and Their Interactions

Development of Modifications to the Material Point Method for the Simulation of Thin Membranes, Compressible Fluids, and Their Interactions
  • Author : Anonim
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKDevelopment of Modifications to the Material Point Method for the Simulation of Thin Membranes, Compressible Fluids, and Their Interactions

The material point method (MPM) is an evolution of the particle in cell method where Lagrangian particles or material points are used to discretize the volume of a material. The particles carry properties such as mass, velocity, stress, and strain and move through a Eulerian or spatial mesh. The momentum equation is solved on the Eulerian mesh. Modifications to the material point method are developed that allow the simulation of thin membranes, compressible fluids, and their dynamic interactions. A single

A Material Point Method for Elastoplasticity with Ductile Fracture and Frictional Contact

A Material Point Method for Elastoplasticity with Ductile Fracture and Frictional Contact
  • Author : Stephanie Wang
  • Publisher : Unknown Publisher
  • Release : 13 April 2021
GET THIS BOOKA Material Point Method for Elastoplasticity with Ductile Fracture and Frictional Contact

Simulating physical materials with dynamic movements to photo-realistic resolution has always been one of the most crucial and challenging topics in Computer Graphics. This dissertation considers large-strain elastoplasticity theory applied to the low-to-medium stiffness regime, with topological changes and codimensional objects incorporated. We introduce improvements to the Material Point Method (MPM) for two particular objectives, simulating fracturing ductile materials and incorporation of MPM and Lagrangian Finite Element Method (FEM). Our first contribution, simulating ductile fracture, utilizes traditional particle-based MPM [SSC13,