Add to ORKGBy applying for molecular dynamics (MD) simulation and Griffith fracture criterion, the brittle behavior of crack extension of mode I type is investigated. The critical stress intensity factor (SIF)K-Ic(MD) of crack extension is calculated, and the evolution of atoms near crack tip is observed. It is found that K-Ic(MD) is in good agreement with the Griffith ftacture criterion K-Ic(Griffith)
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Continuum‐based fracture mechanics breaks down at the nanoscale where the discrete nature of atoms c...
subj imen tion nsfer ther, we examine the growth of critical voids and characterize regions surroun...
The influence of water on the brittle behavior of beta-cristobalite is studied by means of molecular...
Fracture in brittle materials under a macroscopic load, results from the propagation of atomic-scale...
The fracture process involves converting potential energy from a strained body into surface energy, ...
The fracture process involves converting potential energy from a strained body into surface energy, ...
The fracture process involves converting potential energy from a strained body into surface energy, ...
We modeled the initiation of fracture in vitreous silica at various strain rates using molecular dyn...
Dynamic fracture has been modeled using a modified embedded atom method (MEAM) potential for silicon...
This work reviews recent molecular statistics (MS) numerical experiments of cracked samples, and dis...
Understanding, predicting and eventually improving the resistance to fracture of silicate materials ...
Understanding, predicting and eventually improving the resistance to fracture of silicate materials ...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Continuum‐based fracture mechanics breaks down at the nanoscale where the discrete nature of atoms c...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Continuum‐based fracture mechanics breaks down at the nanoscale where the discrete nature of atoms c...
subj imen tion nsfer ther, we examine the growth of critical voids and characterize regions surroun...
The influence of water on the brittle behavior of beta-cristobalite is studied by means of molecular...
Fracture in brittle materials under a macroscopic load, results from the propagation of atomic-scale...
The fracture process involves converting potential energy from a strained body into surface energy, ...
The fracture process involves converting potential energy from a strained body into surface energy, ...
The fracture process involves converting potential energy from a strained body into surface energy, ...
We modeled the initiation of fracture in vitreous silica at various strain rates using molecular dyn...
Dynamic fracture has been modeled using a modified embedded atom method (MEAM) potential for silicon...
This work reviews recent molecular statistics (MS) numerical experiments of cracked samples, and dis...
Understanding, predicting and eventually improving the resistance to fracture of silicate materials ...
Understanding, predicting and eventually improving the resistance to fracture of silicate materials ...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Continuum‐based fracture mechanics breaks down at the nanoscale where the discrete nature of atoms c...
International audienceThe inherent computational cost of molecular simulations limits their use to t...
Continuum‐based fracture mechanics breaks down at the nanoscale where the discrete nature of atoms c...
subj imen tion nsfer ther, we examine the growth of critical voids and characterize regions surroun...