000211933 001__ 211933
000211933 005__ 20190812205850.0
000211933 037__ $$aCONF
000211933 245__ $$aFinite Volume Particle Method for 3-D Elasto-Plastic Solid Simulation
000211933 269__ $$a2014
000211933 260__ $$c2014
000211933 336__ $$aConference Papers
000211933 520__ $$aFinite Volume Particle Method was successfully used to predict fluid flow behavior for 2-D simulations. In this paper, we present a FVPM which is applicable for 3-D solid mechanics simulations. This method features rectangular top-hat kernels for computing the interaction vectors exactly and efficiently. We employed this method to solve the elasto-plastic constitutive equations. To validate the model, we study the impact of rigid spherical particle to the solid surface with different velocities and compare the residual stress and plastic deformation with the FEM solutions.
000211933 700__ $$g196478$$aJahanbakhsh, Ebrahim$$0243107
000211933 700__ $$g170539$$aVessaz, Christian$$0244465
000211933 700__ $$g104417$$aAvellan, François$$0241012
000211933 7112_ $$dJune 3-5, 2014$$cParis, France$$a9th international SPHERIC workshop
000211933 7112_ $$dJune 3-5, 2014$$cParis, France$$a9th international SPHERIC workshop
000211933 773__ $$tProceedings of the 9th international SPHERIC workshop
000211933 8564_ $$zn/a$$yn/a$$uhttps://infoscience.epfl.ch/record/211933/files/Jahanbakhsh_9_SPHERIC.pdf$$s2482048
000211933 8560_ $$febrahim.jahanbakhsh@epfl.ch
000211933 909C0 $$xU10309$$pLMH$$0252135
000211933 909CO $$ooai:infoscience.tind.io:211933$$qGLOBAL_SET$$pconf$$pSTI
000211933 917Z8 $$x196478
000211933 917Z8 $$x196478
000211933 937__ $$aEPFL-CONF-211933
000211933 973__ $$rREVIEWED$$aOTHER
000211933 980__ $$aCONF