Peridynamic (PD) theory is an integral-type nonlocal continuum mechanics theory that
reformulates the equation of motion in local continuum mechanics as an integrodifferential …

Concrete is the most widely used man made material in the world. Reinforced with steel, it
forms a key enabler behind our rapidly urbanising built environment. Yet despite its ubiquity …

As a diffused fracture theory, phase-field models can seamlessly simulate complex crack
patterns such as extending, branching, and merging. Despite the success of phase-field …

A general peridynamics-based framework for elastic bimaterial interface fracture analysis is
established. In this frame, the formation of peridynamic interface bond force is presented for …

Abstract Since Dr. Silling proposed the peridynamics (PD) theory, PD has been successfully
utilized to predict brittle crack propagation problems, however, a precise PD model with the …

In this study, a new bond damage model is proposed in the framework of the bond-based
peridynamics theory to better describe the progressive failure process in cohesive brittle …

Although graphene is believed to be the strongest material, many properties of this material
are still worth exploring and discovering, especially the influence of inevitable defects in its …

Abstract The coupled Euler-Lagrange (CEL) method and finite-discrete element method
(FDEM) are adopted to simulate the rock fracture process induced by high-pressure water jet …

To capture the uniaxial compression fracture of concrete composite is still a great
challenging problem. To this end, the newly proposed nonlocal macro–meso-scale …

A peridynamics-based framework is established for the elastic-plastic ductile fracture
analysis. In this frame, a new state-based peridynamic elastic-plastic model is presented …