Add to ORKGWhile glasses are ubiquitous in natural and manufactured materials, the atomic-level mechanisms governing their deformation and how these mechanisms relate to rheological behavior are still open questions for fundamental understanding. Using atomistic simulations spanning nearly 10 orders of magnitude in the applied strain rate we probe the atomic rearrangements associated with 3 characteristic regimes of homogeneous and heterogeneous shear flow. In the low and high strain-rate limits, simulation results together with theoretical models reveal distinct scaling behavior in flow stress variation with strain rate, signifying a nonlinear coupling between thermally activated diffusion and stress-driven motion. Moreover, we find the emergence of ...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Molecular processes of creep in metallic glass thin films are simulated at experimental timescales u...
While glasses are ubiquitous in natural and manufactured materials, the atomic-level mechanisms gove...
It is commonly acknowledged that the mechanical properties and the rheology of a wide class of amorp...
The potential energy landscape of a flowing metallic glass is revealed using the activation-relaxati...
Many amorphous glassy materials exhibit complex spatio-temporal mechanical response and rheology, ch...
Stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression are studie...
Many amorphous glassy materials exhibit complex spatio-temporal mechanical response and rheology, ch...
Discrete stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression a...
We analyze in detail the atomistic response of a model amorphous material submitted to plastic shear...
While the shear banding is a ubiquitous feature for metallic glasses and other disordered solids, th...
We analyze in detail the atomistic response of a model amorphous material submitted to plastic shear...
Understanding the origin of flow heterogeneity in glassy systems is of high interest both due to its...
While the shear banding is a ubiquitous feature for metallic glasses and other disordered solids, th...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Molecular processes of creep in metallic glass thin films are simulated at experimental timescales u...
While glasses are ubiquitous in natural and manufactured materials, the atomic-level mechanisms gove...
It is commonly acknowledged that the mechanical properties and the rheology of a wide class of amorp...
The potential energy landscape of a flowing metallic glass is revealed using the activation-relaxati...
Many amorphous glassy materials exhibit complex spatio-temporal mechanical response and rheology, ch...
Stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression are studie...
Many amorphous glassy materials exhibit complex spatio-temporal mechanical response and rheology, ch...
Discrete stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression a...
We analyze in detail the atomistic response of a model amorphous material submitted to plastic shear...
While the shear banding is a ubiquitous feature for metallic glasses and other disordered solids, th...
We analyze in detail the atomistic response of a model amorphous material submitted to plastic shear...
Understanding the origin of flow heterogeneity in glassy systems is of high interest both due to its...
While the shear banding is a ubiquitous feature for metallic glasses and other disordered solids, th...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Non-equilibrium molecular dynamics simulations are performed to investigate the dynamic behavior of ...
Molecular processes of creep in metallic glass thin films are simulated at experimental timescales u...