A length scale insensitive phase‐field model for fully coupled thermo‐mechanical fracture in concrete at high temperatures

Abstract: Fracture in concrete at high temperatures involves complex thermo‐mechanical couplings and arbitrary crack evolution, imposing great challenges to its computational modeling. This work addresses a length scale insensitive phase‐field cohesive model for fully coupled thermo‐mechanical fracture in concrete at high temperatures. Both the thermal expansion and transient creep strain are accounted for in the kinematics. Based on the underlying phase‐field cohesive model for fracture in solids at ambient temperature… Show more

A ductile phase-field fracture formulation with regularized fracture toughness through a gradient-extended micromorphic approach

A ductile phase-field fracture formulation with regularized fracture toughness through a gradient-extended micromorphic approach

Modelling of thermo-mechanical coupling effects in rock masses using an enriched nodal-based continuous-discontinuous deformation analysis method

Meso-scale simulation of thermal fracture in concrete based on the coupled thermal–mechanical phase-field model