Add to ORKGIt is well known that strain rate and size effects are both important in material failure, but the relationships between them are poorly understood. To establish this connection, we carry out molecular dynamics (MD) simulations of cavitation in Lennard-Jones and Cu liquids over a very broad range of size and strain rate. These studies confirm that temporal and spatial scales play equivalent roles in the tensile strengths of these two liquids. Predictions based on smallest-scale MD simulations of Cu for larger temporal and spatial scales are consistent with independent simulations, and comparable to experiments on liquid metals. We analyze these results in terms of classical nucleation theory and show that the equivalence arises from the rol...
We perform atomistic simulations on the fracture behavior of two typical metallic glasses, one britt...
Network materials, foams, and emulsions are ubiquitous in our daily life. We have a good intuition a...
A material is considered soft when its bulk modulus is significantly greater than its shear modulus....
It is well known that strain rate and size effects are both important in material failure, but the r...
The nucleation of cavities in a homogenous polymer under tensile strain is investigated in a coarse-...
To gain insight into the large toughness variability observed between metallic glasses (MGs), we exa...
Properties of liquid metals (Li, Pb, Na) containing nanoscale cavities were studied by atomistic Mol...
The relationship between pullback velocity and impact velocity is studied for different microstructu...
International audienceThis work focuses on a specific aspect of polymer fracture: the onset of cavit...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
International audienceHot tearing defects appear during the last steps of casting solidification of ...
We demonstrate the stochastic nature of cavitation in a binary metallic liquid Cu46Zr54 during hydro...
AbstractThe molecular dynamics (MD) simulations are performed with single-crystal copper blocks unde...
We demonstrate the stochastic nature of cavitation in a binary metallic liquid Cu_(46)Zr_(54) during...
Isotropic tension is simulated in nanoscale polycrystalline copper with 10 nm grain size using large...
We perform atomistic simulations on the fracture behavior of two typical metallic glasses, one britt...
Network materials, foams, and emulsions are ubiquitous in our daily life. We have a good intuition a...
A material is considered soft when its bulk modulus is significantly greater than its shear modulus....
It is well known that strain rate and size effects are both important in material failure, but the r...
The nucleation of cavities in a homogenous polymer under tensile strain is investigated in a coarse-...
To gain insight into the large toughness variability observed between metallic glasses (MGs), we exa...
Properties of liquid metals (Li, Pb, Na) containing nanoscale cavities were studied by atomistic Mol...
The relationship between pullback velocity and impact velocity is studied for different microstructu...
International audienceThis work focuses on a specific aspect of polymer fracture: the onset of cavit...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
International audienceHot tearing defects appear during the last steps of casting solidification of ...
We demonstrate the stochastic nature of cavitation in a binary metallic liquid Cu46Zr54 during hydro...
AbstractThe molecular dynamics (MD) simulations are performed with single-crystal copper blocks unde...
We demonstrate the stochastic nature of cavitation in a binary metallic liquid Cu_(46)Zr_(54) during...
Isotropic tension is simulated in nanoscale polycrystalline copper with 10 nm grain size using large...
We perform atomistic simulations on the fracture behavior of two typical metallic glasses, one britt...
Network materials, foams, and emulsions are ubiquitous in our daily life. We have a good intuition a...
A material is considered soft when its bulk modulus is significantly greater than its shear modulus....