Hybrid Lattice Particle modelling (HLPM) is an innovative particular dynamics approach that is established based on a combination of the particle modelling (PM) technique together with the conventional lattice modelling (LM) theory. It is developed for the purpose of simulating the dynamic fragmentation of solids under high strain rate loadings at macroscales with a varying Poisson\u27s ratio. HLPM is conceptually illustrated by fully dynamic particles (or “quasi-particles”) placed at the nodes of a lattice network without explicitly considering their geometric size. The interaction potentials among the particles can employ either linear (quadratic) or nonlinear (Leonard-Jones or strain rate dependent polynomial) type as the axial/angular l...
The material structure at the microscale reveals the particulate nature of solids. By exploiting the...
The material behavior of polymers is known to be highly dependent on the rate of loading. However, l...
ABSTRACT: To clarify the mechanical characteristics and damage of polymers containing second-phase p...
Hybrid Lattice Particle modelling (HLPM) is an innovative particular dynamics approach that is estab...
AbstractThis paper presents a numerical method, known as hybrid lattice particle modeling (HLPM), fo...
This paper is concerned with the mathematical derivations of employing elastic interaction formula b...
In this paper, we first theoretically revise the traditional particle modeling (PM) by means of math...
Lattice materials are artificial materials made of repeating unit-cells. The internal architecture o...
This research is aimed at understanding the mechanical behavior of particulate/granular media using ...
We carry out an experimental and theoretical study of the fragmentation of polymeric materials by im...
Recently, research on the impact resistance of transparent hybrid glass-polymer systems (layered and...
High strain rate material modelling for use in crash and drop testing has been plagued by a number o...
Strength and toughness of particle filled polymers substantially depend on deformation localization ...
Lattice-type periodic metamaterials with beam-like struts have been extensively investigated in rece...
Studying the mechanical response of particle-reinforced polymer composites to dynamic loadings has l...
The material structure at the microscale reveals the particulate nature of solids. By exploiting the...
The material behavior of polymers is known to be highly dependent on the rate of loading. However, l...
ABSTRACT: To clarify the mechanical characteristics and damage of polymers containing second-phase p...
Hybrid Lattice Particle modelling (HLPM) is an innovative particular dynamics approach that is estab...
AbstractThis paper presents a numerical method, known as hybrid lattice particle modeling (HLPM), fo...
This paper is concerned with the mathematical derivations of employing elastic interaction formula b...
In this paper, we first theoretically revise the traditional particle modeling (PM) by means of math...
Lattice materials are artificial materials made of repeating unit-cells. The internal architecture o...
This research is aimed at understanding the mechanical behavior of particulate/granular media using ...
We carry out an experimental and theoretical study of the fragmentation of polymeric materials by im...
Recently, research on the impact resistance of transparent hybrid glass-polymer systems (layered and...
High strain rate material modelling for use in crash and drop testing has been plagued by a number o...
Strength and toughness of particle filled polymers substantially depend on deformation localization ...
Lattice-type periodic metamaterials with beam-like struts have been extensively investigated in rece...
Studying the mechanical response of particle-reinforced polymer composites to dynamic loadings has l...
The material structure at the microscale reveals the particulate nature of solids. By exploiting the...
The material behavior of polymers is known to be highly dependent on the rate of loading. However, l...
ABSTRACT: To clarify the mechanical characteristics and damage of polymers containing second-phase p...