The metal glasses and quasicrystals have the unique physical and chemical properties (mechanical, electrical, magnetic and others) [1—3]. At the treatment and strength effect on metal glasses it observed the wide slip bands which are developed very heterogeneous along the volume of specimen [1—3]. But the line defects (dislocations) are not observed by electron microscope. Th
Because of their disordered atomic structure, amorphous metals (termed metallic glasses) have fundam...
The plasticity of metallic glasses (MGs) is mediated by localized shearing in thin bands, degrading ...
Strain localization is an important deformation mode for many disordered materials, particularly for...
In the present work, the plasticity of quasicrystals, metallic glasses and structurally complex allo...
cited By 4International audienceIn this article we interpret the mechanical properties of icosahedra...
In the present work, the plasticity of quasicrystals, metallic glasses and structurally complex allo...
International audienceDespite their antinomic atomic structures, long range ordered but non-periodic...
Dislocation mobilities in quasicrystals are calculated from recently developed hydrodynamic equation...
International audienceGlasses and crystals from the same chemical system mostly share the same inter...
Nanocrystalline and glassy materials, especially the bulk metallic glasses are of relatively recent ...
International audienceMechanical properties of bulk metallic glasses are strongly dependent on tempe...
cited By 8International audienceThe atomic mobility in Zr50.7Cu28Ni9Al12.3 bulk metallic glass has b...
The theoretical relation between the lattice strains produced by precipitation in a mineral and the ...
This proposed research addresses one of the long outstanding fundamental problems in materials scien...
Metallic glasses demonstrate unique properties, including large elastic limit and high strength, whi...
Because of their disordered atomic structure, amorphous metals (termed metallic glasses) have fundam...
The plasticity of metallic glasses (MGs) is mediated by localized shearing in thin bands, degrading ...
Strain localization is an important deformation mode for many disordered materials, particularly for...
In the present work, the plasticity of quasicrystals, metallic glasses and structurally complex allo...
cited By 4International audienceIn this article we interpret the mechanical properties of icosahedra...
In the present work, the plasticity of quasicrystals, metallic glasses and structurally complex allo...
International audienceDespite their antinomic atomic structures, long range ordered but non-periodic...
Dislocation mobilities in quasicrystals are calculated from recently developed hydrodynamic equation...
International audienceGlasses and crystals from the same chemical system mostly share the same inter...
Nanocrystalline and glassy materials, especially the bulk metallic glasses are of relatively recent ...
International audienceMechanical properties of bulk metallic glasses are strongly dependent on tempe...
cited By 8International audienceThe atomic mobility in Zr50.7Cu28Ni9Al12.3 bulk metallic glass has b...
The theoretical relation between the lattice strains produced by precipitation in a mineral and the ...
This proposed research addresses one of the long outstanding fundamental problems in materials scien...
Metallic glasses demonstrate unique properties, including large elastic limit and high strength, whi...
Because of their disordered atomic structure, amorphous metals (termed metallic glasses) have fundam...
The plasticity of metallic glasses (MGs) is mediated by localized shearing in thin bands, degrading ...
Strain localization is an important deformation mode for many disordered materials, particularly for...
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