Add to ORKGThe response of glasses subjected to high pressures can be classified into three classes : normal, anomalous and intermediate depending on the deformation mechanism and the cracking pattern. The silica glass which is the scope of this work is a typical anomalous glass. The numerical study of this behavior with continuum methods (e.g. FEM, CNEM) presents several difficulties and drawbacks. Because, this requires a very small scale analysis. The discrete methods (e.g. MD, DEM) represent a good choice to simulate this behavior. However, these methods are very time consuming (CPU-wise). In this work, a discrete-continuum coupling method is proposed to study the behavior of this brittle material subjected to high pressures. The coupling results,...
Le verre de silice (SiO₂) est un des matériaux les plus couramment utilisés dans notre société moder...
Fracture in brittle materials under a macroscopic load, results from the propagation of atomic-scale...
The mechanical behavior of materials is usually simulated by a continuous mechanics approach. Howeve...
A multi-scale coupling method to simulate the silica glass behavior under high pressure
The indentation response of glasses can be classified under three headings: normal, anomalous and in...
A discrete-continuum coupling approach has been developed to simulate the laser-induced damage in si...
The indentation response of glasses can be classified into three classes : normal, anomalous and int...
Molecular dynamics (MD) simulations were carried out to study the stress-strain diagrams of crystall...
The discrete element method (DEM) presents an alternative way to model complex mechanical problems o...
International audienceThe behavior of silica glass material under shock compression has been investi...
International audienceThe behavior of silica glass material under shock compression has been investi...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
The Mechanical Response of a Model Silica Glass is studied extensively at the submicromete...
Fused silica (SiO₂) is one of the most commonly used materials in our modern society. Among other us...
This paper presents a comparison of three numerical approaches for modeling brittle materials in bot...
Le verre de silice (SiO₂) est un des matériaux les plus couramment utilisés dans notre société moder...
Fracture in brittle materials under a macroscopic load, results from the propagation of atomic-scale...
The mechanical behavior of materials is usually simulated by a continuous mechanics approach. Howeve...
A multi-scale coupling method to simulate the silica glass behavior under high pressure
The indentation response of glasses can be classified under three headings: normal, anomalous and in...
A discrete-continuum coupling approach has been developed to simulate the laser-induced damage in si...
The indentation response of glasses can be classified into three classes : normal, anomalous and int...
Molecular dynamics (MD) simulations were carried out to study the stress-strain diagrams of crystall...
The discrete element method (DEM) presents an alternative way to model complex mechanical problems o...
International audienceThe behavior of silica glass material under shock compression has been investi...
International audienceThe behavior of silica glass material under shock compression has been investi...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
The Mechanical Response of a Model Silica Glass is studied extensively at the submicromete...
Fused silica (SiO₂) is one of the most commonly used materials in our modern society. Among other us...
This paper presents a comparison of three numerical approaches for modeling brittle materials in bot...
Le verre de silice (SiO₂) est un des matériaux les plus couramment utilisés dans notre société moder...
Fracture in brittle materials under a macroscopic load, results from the propagation of atomic-scale...
The mechanical behavior of materials is usually simulated by a continuous mechanics approach. Howeve...