@article{ISI:000243895100038,
 abstract = {Motivated by recent experiments on metallic glasses, we examine the
micromechanisms of strain accommodation including crystallization and
void formation during inelastic deformation of glasses by employing
molecular statics simulations. Our atomistic simulations with
Lennard-Jones-like potentials suggests that a softer short range
interaction between atoms favors crystallization. Compressive
hydrostatic strain in the presence of a shear strain promotes
crystallization whereas a tensile hydrostatic strain is found to induce
voids. The deformation subsequent to the onset of crystallization
includes partial reamorphization and recrystallization, suggesting
important atomistic mechanisms of plastic dissipation in glasses.},
 article-number = {024203},
 author = {Murali, P. and Ramamurty, U. and Shenoy, Vijay B.},
 doi = {10.1103/PhysRevB.75.024203},
 issn = {1098-0121},
 journal = {PHYSICAL REVIEW B},
 month = {JAN},
 number = {2},
 orcid-numbers = {Palla, Murali/0000-0001-6470-4515
},
 researcherid-numbers = {Palla, Murali/C-9146-2009
Ramamurty, Upadrasta/E-5623-2011},
 times-cited = {12},
 title = {Strain accommodation in inelastic deformation of glasses},
 unique-id = {ISI:000243895100038},
 volume = {75},
 year = {2007}
}