Add to ORKGIn order to illustrate how atomistic modeling is being used to determine the structure, physical, and chemical properties of materials at the nanoscale, we present here the results of molecular dynamics (MD) simulations on nanoscale assemblies of such materials as carbon nanotubes, diamond surfaces, metal alloy nanowires, and ceramics. We also include here the results of nonequilibrium MD simulations on the nanorheology of a monolayer of wear inhibitor self-assembled on two metal oxide surfaces, separated by hexadecane lubricant, and subjected to steady state shear. We also present recent developments in force fields (FF) required to describe bond breaking and phase transformations in such systems. We apply these to study of plasticity ...
Crystalline materials display a strong size dependence in mechanical behavior over a scale that exte...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...
In order to illustrate how atomistic modeling is being used to determine the structure, physical, an...
2013-02-07This dissertation is focused on multimillion-atom molecular dynamics (MD) simulations of n...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Nanoscale materials have become an active area of research due to the enhanced mechanical properties...
The mechanical properties of nanoscale materials are studied using the molecular dynamics and lattic...
Nanowires are an exciting class of novel materials that have potential applications in areas includi...
Novel properties in martensitic alloys are predicted using molecular dynamics (MD) simulations, the ...
This thesis employed atomistic simulations to investigate the role of layer thickness in multi-layer...
Novel properties in martensitic alloys are predicted using molecular dynamics (MD) simulations, the ...
Abstract The mechanisms of plasticity in metal naowires with diameters below 100 nm are reviewed. At...
The approach of molecular dynamics simulation is one of the most promising methods for investigating...
The real progress in the last decade in nanotechnology, has been due to a series of advances in a va...
Crystalline materials display a strong size dependence in mechanical behavior over a scale that exte...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...
In order to illustrate how atomistic modeling is being used to determine the structure, physical, an...
2013-02-07This dissertation is focused on multimillion-atom molecular dynamics (MD) simulations of n...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Nanoscale materials have become an active area of research due to the enhanced mechanical properties...
The mechanical properties of nanoscale materials are studied using the molecular dynamics and lattic...
Nanowires are an exciting class of novel materials that have potential applications in areas includi...
Novel properties in martensitic alloys are predicted using molecular dynamics (MD) simulations, the ...
This thesis employed atomistic simulations to investigate the role of layer thickness in multi-layer...
Novel properties in martensitic alloys are predicted using molecular dynamics (MD) simulations, the ...
Abstract The mechanisms of plasticity in metal naowires with diameters below 100 nm are reviewed. At...
The approach of molecular dynamics simulation is one of the most promising methods for investigating...
The real progress in the last decade in nanotechnology, has been due to a series of advances in a va...
Crystalline materials display a strong size dependence in mechanical behavior over a scale that exte...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...
Carbon-nanotubes (CNTs) and Nanowires (NWs), the two nanomaterials with outstanding properties, are ...