Smoothed Particle Hydrodynamics: A Meshfree Particle MethodThis is the first-ever book on smoothed particle hydrodynamics (SPH)and its variations, covering the theoretical background, numericaltechniques, code implementation issues, and many novel and interestingapplications. |
Contents
Preface | vii |
Introduction | 1 |
SPH Concept and Essential Formulation | 33 |
Construction of Smoothing Functions | 59 |
SPH for General Dynamic Fluid Flows | 103 |
Discontinuous SPH DSPH | 177 |
SPH for Simulating Explosions | 201 |
SPH for Underwater Explosion Shock Simulation | 255 |
SPH for Hydrodynamics with Material Strength | 305 |
Coupling SPH with Molecular Dynamics for Multiple Scale Simulations | 337 |
Computer Implementation of SPH and a 3D SPH Code | 361 |
Other editions - View all
Smoothed Particle Hydrodynamics: A Meshfree Particle Method Gui-Rong Liu,M. B. Liu Limited preview - 2003 |
Common terms and phrases
algorithm applied approach artificial viscosity ASPH atoms calculated cell Chapter Computational Mechanics CSPM density derivative detonation model detonation process detonation wave discontinuity discrete double precision DSPH dwdx enddo endif Eulerian explosive gas field variables finite grid grid-based h)dx hsml incompressible flows influence domain initial interaction pair interface itype kernel approximation Lagrangian large deformation Liu G. R. mass maxn mesh meshfree methods meshfree particle methods molecular dynamics momentum Monaghan MSC/Dytran N/m² neighboring particles niac nodes ntotal number of particles numerical methods numerical simulations nvirt obtained pair_i parameters particle approximation particle distribution Poiseuille flow problem domain shaped charge shock wave smoothed particle hydrodynamics smoothing function smoothing length SPH approximation SPH code SPH formulation SPH method SPH particles step subroutine summation support domain TNT slab traditional SPH underwater explosion velocity virtual particles viscosity water mitigation water shield thickness