Tension–compression asymmetry in amorphous silicon
Amorphous silicon exhibits a glass transition
PDF) Significant “smaller is softer” in amorphous silicon via irradiation-mediated surface modification
OpenKIM · EDIP JustoBazantKaxiras 1998 Si MO_958932894036_002 MO_958932894036 · Interatomic Potentials and Force Fields
The atomistic deformation mechanism of Li 0.5 Si under the uniaxial
Uncoupling shear and uniaxial elastic moduli of semiflexible biopolymer networks: compression-softening and stretch-stiffening
Microscopic mechanisms of pressure-induced amorphous-amorphous transitions and crystallisation in silicon
Anomalous tension–compression asymmetry in amorphous silicon: insights from atomistic simulations and elastoplastic constitutive modeling - ScienceDirect
Anomalous tension–compression asymmetry in amorphous silicon: insights from atomistic simulations and elastoplastic constitutive modeling - ScienceDirect
Weibull analysis of fracture strength for Zr55Ti2Co28Al15 bulk metallic glass: Tension–compression asymmetry and porosity effect, Journal of Materials Research
