A generalized bond-based micropolar peridynamic model is proposed to simulate the
nonlinear deformation and mixed-mode crack propagation of quasi-brittle materials under …

Most of the stress–strain relationships of thermoplastic polymers for aeronautical composites
tend to be nonlinear and sensitive to strain rate and temperature, so accurate constitutive …

A novel multiscale method coupling peridynamics (PD) and boundary element method
(BEM) is proposed for dynamic problems. In the coupling model, the discontinuous …

A modified interphase model was developed to improve the physical error of the
conventional interphase model. To examine the superiority of the new model, a multiscale …

A viscoelastic micropolar peridynamic (VMPD) model is proposed to describe the nonlinear
deformation and fracture behaviors of quasi-brittle materials considering loading-rate effects …

Modelling the deformation and failure processes occurring in polymer bonded explosives
(PBX) and other energetic materials is of great importance for processing methods and …

In polymer-filled granular composites, damage may develop in mechanical loading prior to
material failure. Damage mechanisms such as microcracking or plastic deformation in the …

In order to clarify the roles played by material constituents to the mechanical response of
plastic-bonded explosives (PBXs), a micromechanical model is presented by combining a …

In this work, two simulation models were used to investigate the local deformation and
damage behavior of partially stabilized zirconia-reinforced metastable austenitic steel …

This paper presents a quasi-static multiscale computational model with its verification and
rational applications to mechanical behavior predictions of asphaltic roadways that are …