Darshan Bamney
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View article: Effect of anisotropic Peierls barrier on the evolution of discrete dislocation networks in Ni
Effect of anisotropic Peierls barrier on the evolution of discrete dislocation networks in Ni Open
Over low and intermediate strain rates, plasticity in face centered cubic (FCC) metals is governed by the glide of dislocations, which manifest as complex networks that evolve with strain. Considering the elastic anisotropy of FCC metals, …
View article: Twin Nucleation and Growth in Hexagonal Close-Packed Metals: The Role of Slip-Mediated Plasticity on Twin Embryo Formation and Evolution
Twin Nucleation and Growth in Hexagonal Close-Packed Metals: The Role of Slip-Mediated Plasticity on Twin Embryo Formation and Evolution Open
View article: Elastic shielding mediated by deformation twin facets in hexagonal close-packed metals
Elastic shielding mediated by deformation twin facets in hexagonal close-packed metals Open
View article: Elastic Shielding Mediated by Deformation Twin Facets in Hexagonal Close-Packed Metals
Elastic Shielding Mediated by Deformation Twin Facets in Hexagonal Close-Packed Metals Open
View article: On the co-nucleation of adjoining twin pairs at grain boundaries in hexagonal close-packed materials
On the co-nucleation of adjoining twin pairs at grain boundaries in hexagonal close-packed materials Open
View article: Assessing the predictive capabilities of precipitation strengthening models for deformation twinning in Mg alloys using phase-field simulations
Assessing the predictive capabilities of precipitation strengthening models for deformation twinning in Mg alloys using phase-field simulations Open
Precipitation strengthening is a key strategy for improving the overall mechanical properties of Mg alloys. In Mg-Al alloys, basal precipitates are known to strengthen against twinning, resulting in an increase in the critical resolved she…
View article: On the Co-Nucleation of Adjoining Twin Pairs at Grain Boundaries in Hexagonal Close-Packed Materials
On the Co-Nucleation of Adjoining Twin Pairs at Grain Boundaries in Hexagonal Close-Packed Materials Open
View article: Disclination-dislocation based model for grain boundary stress field evolution due to slip transmission history and influence on subsequent dislocation transmission
Disclination-dislocation based model for grain boundary stress field evolution due to slip transmission history and influence on subsequent dislocation transmission Open
View article: Data-driven analysis of neutron diffraction line profiles: application to plastically deformed Ta
Data-driven analysis of neutron diffraction line profiles: application to plastically deformed Ta Open
Non-destructive evaluation of plastically deformed metals, particularly diffraction line profile analysis (DLPA), is valuable both to estimate dislocation densities and arrangements and to validate microstructure-aware constitutive models.…
View article: Data-Driven Analysis of Neutron Diffraction Line Profiles: Application to Plastically Deformed Ta
Data-Driven Analysis of Neutron Diffraction Line Profiles: Application to Plastically Deformed Ta Open
Non-destructive evaluation of plastically deformed metals, particularly diffraction line profile analysis (DLPA), is valuable both to estimate dislocation densities and arrangements and to validate microstructure-aware constitutive models.…
View article: Virtual diffraction analysis of dislocations and dislocation networks in discrete dislocation dynamics simulations
Virtual diffraction analysis of dislocations and dislocation networks in discrete dislocation dynamics simulations Open
View article: Data-Driven Analysis of Neutron Diffraction Line Profiles: Application to Plastically Deformed Ta
Data-Driven Analysis of Neutron Diffraction Line Profiles: Application to Plastically Deformed Ta Open
View article: Mobility of dislocations in aluminum: The role of non-Schmid stress state
Mobility of dislocations in aluminum: The role of non-Schmid stress state Open