An adaptive space-time finite element model for oxidation-driven fracture

Keyphrases

• Finite Element Model 100%
• Adaptive Space 100%
• Space-time Finite Elements 100%
• Crack Tip 66%
• Evolution Equations 66%
• Space-time Model 66%
• Stress-assisted Diffusion 33%
• Computational Approach 33%
• Temporal Coherence 33%
• Model Support 33%
• Control Element 33%
• Plane Strain 33%
• Diffusive Transport 33%
• Deformation History 33%
• Material Behavior 33%
• Efficient Computation 33%
• Fracture Criterion 33%
• Viscoplastic Material 33%
• Finite Deformation 33%
• Coupled System 33%
• Strain Mode 33%
• Mesh Refinement 33%
• Mode I Fracture 33%
• Ductile Fracture 33%
• Crack Tip Location 33%
• Fracture Plane 33%
• Accurate Solution 33%
• Material Evolution 33%
• History-dependent Materials 33%
• Finite Element Procedure 33%
• H-adaptivity 33%
• Discontinuous Galerkin Method 33%
• Variational Formulation 33%
• Solution Accuracy 33%
• Adaptive Finite Element Method 33%
• Adaptivity 33%
• Cohesive Interface 33%
• Chemical Diffusion 33%
• Reliable Solution 33%
• Interface Fracture 33%
• Steady-state Calculation 33%
• Element Distortion 33%
• Reactive Chemical Species 33%
• Mode III Fracture 33%

Engineering

• Finite Element Modeling 100%
• Crack Tip 100%
• Finite Element Analysis 66%
• Transients 33%
• Discontinuous Galerkin 33%
• Finite Deformation 33%
• Illustrates 33%
• Dependent Material 33%
• Enhanced Diffusion 33%
• Diffusive Transport 33%
• Material Behavior 33%
• Numerical Study 33%
• Fracture Criterion 33%
• Coupled System 33%
• Plane Strain Mode 33%
• Mesh Refinement 33%
• Mode I Fracture 33%
• Ductile Fracture 33%
• Fracture Plane 33%
• Galerkin Formulation 33%
• Cohesive Interface 33%
• Element Distortion 33%