In this paper, a numerical model that couples peridynamics (PD) with smoothed particle
hydrodynamics (SPH) is presented for fracture modeling in fluid–structure interaction (FSI) …

A phase-field approach becomes a more popular candidate in modeling crack propagation.
It uses a scalar auxiliary variable, namely a phase-field variable, to model a discontinuity …

The phase-field approach to fracture modeling circumvents the crack-surface tracking
problem by introducing the phase-field variable which separates the broken and unbroken …

In this work, a phase field cohesive zone model (PFCZM) combined with the cell-based
smoothed finite element method (CSFEM) is presented to investigate the quasi-brittle …

A new approach for concurrent multiscale modeling of three-dimensional crack propagation
in concrete is proposed. A macroscopic model with homogenized elastic parameters is …

This paper presents a hybrid peridynamics and classical continuum mechanics modeling
approach for brittle fracture, in which peridynamics is activated according to a strength …

In this work, a localizing gradient damage model (LGDM) based on the generalized
micromorphic theory is adopted to investigate the quasi-brittle fracture behaviour of concrete …

Phase field models can effectively capture complicated crack evolution characteristics such
as propagation, bifurcating, intersecting and merging. However, the simulation of three …

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 …

A comprehensive overview of state-of-the-art experimental, theoretical and numerical
methods that aid understanding and predicting the quasi-brittle fracture behavior of plain …