Add to ORKGTo harness “smaller is more ductile” behavior emergent at nanoscale and to proliferate it onto materials with macroscale dimensions, we produced hollow-tube Cu_(60)Zr_(40) metallic glass nanolattices with the layer thicknesses of 120, 60, and 20 nm. They exhibit unique transitions in deformation mode with tube-wall thickness and temperature. Molecular dynamics simulations and analytical models were used to interpret these unique transitions in terms of size effects on the plasticity of metallic glasses and elastic instability
AbstractThe effect of temperature on the short-range order (SRO) structures, deformation mechanisms ...
This study systematically investigates the effects of three rejuvenation modes, namely biaxial loadi...
Strain localization during plastic deformation drastically reduces the shear band stability in metal...
To harness “smaller is more ductile” behavior emergent at nanoscale and to proliferate it onto mater...
To harness “smaller is more ductile” behavior emergent at nanoscale and to proliferate it onto mater...
The effects of cooling rate, temperature, and applied strain rate on the tensile deformation behavio...
Homogeneous plasticity in metallic glasses is generally only observed at high temperatures or in ver...
The influence of grain size and composition on the mechanical properties of Cu–Zr nanoglasses (NGs) ...
Using molecular dynamics simulation, we study nanoindentation in large samples of Cu−Zr glass ...
Bulk metallic glasses (BMGs) exhibit some outstanding mechanical properties involving high fracture ...
The scope of this thesis is to elucidate structure-property relationships in copper-zirconium amorph...
The room temperature tensile deformation behavior of two metallic glasses (MGs), Cu64Zr36 and Cu40Zr...
Metallic glasses with embedded crystalline phases have been experimentally reported to exhibit enhan...
Energy-efficient materials are key to combating the high energy costs and climate change. The manufa...
Metallic glasses (MGs) exhibit both high yield stresses and elastic strain limits owing to their met...
AbstractThe effect of temperature on the short-range order (SRO) structures, deformation mechanisms ...
This study systematically investigates the effects of three rejuvenation modes, namely biaxial loadi...
Strain localization during plastic deformation drastically reduces the shear band stability in metal...
To harness “smaller is more ductile” behavior emergent at nanoscale and to proliferate it onto mater...
To harness “smaller is more ductile” behavior emergent at nanoscale and to proliferate it onto mater...
The effects of cooling rate, temperature, and applied strain rate on the tensile deformation behavio...
Homogeneous plasticity in metallic glasses is generally only observed at high temperatures or in ver...
The influence of grain size and composition on the mechanical properties of Cu–Zr nanoglasses (NGs) ...
Using molecular dynamics simulation, we study nanoindentation in large samples of Cu−Zr glass ...
Bulk metallic glasses (BMGs) exhibit some outstanding mechanical properties involving high fracture ...
The scope of this thesis is to elucidate structure-property relationships in copper-zirconium amorph...
The room temperature tensile deformation behavior of two metallic glasses (MGs), Cu64Zr36 and Cu40Zr...
Metallic glasses with embedded crystalline phases have been experimentally reported to exhibit enhan...
Energy-efficient materials are key to combating the high energy costs and climate change. The manufa...
Metallic glasses (MGs) exhibit both high yield stresses and elastic strain limits owing to their met...
AbstractThe effect of temperature on the short-range order (SRO) structures, deformation mechanisms ...
This study systematically investigates the effects of three rejuvenation modes, namely biaxial loadi...
Strain localization during plastic deformation drastically reduces the shear band stability in metal...