Dynamic Fracture MechanicsM. H. Aliabadi A review of dynamic fracture mechanics with particular emphasis on computational methods. This text covers finite elements, finite volume, and boundary element methods providing fundamental concepts of advances in computational methods as well as the algorithms for use in practical applications. |
Common terms and phrases
Aliabadi analysis applied Atluri beam boundary element method boundary integral equation calculated coefficients computational crack front crack growth crack initiation crack length crack problems crack propagation crack velocity crack-tip speed deformation domain DSIF dynamic crack propagation dynamic fracture mechanics dynamic J integral dynamic stress intensity elastic Engng experimental Figure finite element finite element method fracture toughness frequency Freund fundamental solutions Gdyn higher order transient impact infinite initial curve integral equation inverse problem K-dominant K₁ K₁(t Ki(t Laplace transform linear linear elastic loading rate material measured Mech mesh pattern mixed-mode moving crack-tip Nishioka nodes Normalized obtained order transient asymptotic parameters path path-independent plane plane strain plate Poisson's ratio propagating crack Rosakis semi-infinite crack Sensor shown in Fig simulation singular specimen static stiffness stress field stress intensity factor structure technique transient asymptotic representation waveguide