Monte Carlo and molecular dynamics simulations of Al-Ni nanocrystalline alloys show amorphous grain-boundary complexions enable shear-transformation-zone plasticity while short-range-ordered complexions drive stress-heterogeneity-controlled shear localization.
Acta Metallurgica, 1979
2 Pith papers cite this work. Polarity classification is still indexing.
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Review of topological defects in vibrational modes, non-affine fields, and deformation of glasses and their correlations with plasticity.
citing papers explorer
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Amorphous vs. Short-Range-Ordered Complexions: Consequences for Grain-Boundary-Mediated Plasticity in Nanocrystalline Al-Ni Alloys
Monte Carlo and molecular dynamics simulations of Al-Ni nanocrystalline alloys show amorphous grain-boundary complexions enable shear-transformation-zone plasticity while short-range-ordered complexions drive stress-heterogeneity-controlled shear localization.
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The Physics of Topological Defects in Glasses
Review of topological defects in vibrational modes, non-affine fields, and deformation of glasses and their correlations with plasticity.