TY  - BOOK
AU  - Rabczuk, Timon
TI  - Computational Methods for Fracture
KW  - Brittle Fracture||n/a||microstructure||fatigue crack growth||fracture process zone (FPZ)||crack shape change||fracture network modeling||Mohr-Coulomb||fracture||SBFEM||topological insulator||fatigue||progressive collapse analysis||Phase-field model||loss of key components||concrete creep||compressive stress||rail squats||cracks||force transfer||rolling contact||damage-plasticity model||implicit gradient-enhancement||extended scaled boundary finite element method (X-SBFEM)||three-parameter model||LEFM||overall stability||EPB shield machine||metallic glass matrix composite||phase field||reinforced concrete core tube||bulk damage||ductility||thermomechanical analysis||incompatible approximation||moderate fire||finite element simulations||shear failure||FSDT||gradient-enhanced model||prestressing stress||self-healing||peridynamics||damage-healing mechanics||stress intensity factors||damage||dam stress zones||shear band||rock fracture||random fracture||surface crack||plate||steel reinforced concrete frame||super healing||brittle material||geometric phase||FE analysis||grouting||rock||elastoplastic behavior||parameters calibration||screened-Poisson model||anisotropic||numerical simulation||Discontinuous Galerkin||brittle fracture||XFEM/GFEM||topological photonic crystal||photonic orbital angular momentum||conditioned sandy pebble||yielding region||finite element analysis||fluid–structure interaction||cracking risk||Mindlin||ABAQUS UEL||particle element model||HSDT||cell-based smoothed-finite element method (CS-FEM)||the Xulong arch dam
UR  - https://mdpi.com/books/pdfview/book/1747
ER  -