Strain is a crucial measure of materials deformation for evaluating and predicting the mechanical response, strength, and fracture. The spatial resolution attainable by the modern real and reciprocal space techniques continues to improve, alongside the ability to carry out atomistic simulations. This is offering new insights into the very concept of strain. In crystalline materials, the presence of well-defined, stable atomic planes allows defining strain as the relative change in the interplanar spacing. However, the presence of disorder, e.g. locally around defects such as dislocation cores, and particularly the pervasive atomic disorder in amorphous materials challenge existing paradigms: disorder prevents a reference configuration being...
The time evolution and spatial correlations of nonaffine displacements in deformed amorphous solids ...
Atomic scale simulations are a key element of modern science in that they allow to understand, and e...
International audienceModification of materials using ion beams has become a widespread route to imp...
Strain is a crucial measure of materials deformation for evaluating and predicting the mechanical re...
Strain localization is an important deformation mode for many disordered materials, particularly for...
A computer simulation of mechanical deformation in an amorphous structure and an X-ray diffraction o...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
Solid state amorphization, and in particular crystalline to amorphous transformation, can be observe...
The influence of alternating shear orientation and strain amplitude of cyclic loading on yielding in...
The influence of alternating shear orientation and strain amplitude of cyclic loading on yielding in...
Motivated by recent experiments on metallic glasses, we examine the micromechanisms of strain accomm...
The time evolution and spatial correlations of nonaffine displacements in deformed amorphous solids ...
Molecular dynamics simulations of uniaxial tension in a two-dimensional model of a metallic glass ex...
The time evolution and spatial correlations of nonaffine displacements in deformed amorphous solids ...
Atomic scale simulations are a key element of modern science in that they allow to understand, and e...
International audienceModification of materials using ion beams has become a widespread route to imp...
Strain is a crucial measure of materials deformation for evaluating and predicting the mechanical re...
Strain localization is an important deformation mode for many disordered materials, particularly for...
A computer simulation of mechanical deformation in an amorphous structure and an X-ray diffraction o...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
Solid state amorphization, and in particular crystalline to amorphous transformation, can be observe...
The influence of alternating shear orientation and strain amplitude of cyclic loading on yielding in...
The influence of alternating shear orientation and strain amplitude of cyclic loading on yielding in...
Motivated by recent experiments on metallic glasses, we examine the micromechanisms of strain accomm...
The time evolution and spatial correlations of nonaffine displacements in deformed amorphous solids ...
Molecular dynamics simulations of uniaxial tension in a two-dimensional model of a metallic glass ex...
The time evolution and spatial correlations of nonaffine displacements in deformed amorphous solids ...
Atomic scale simulations are a key element of modern science in that they allow to understand, and e...
International audienceModification of materials using ion beams has become a widespread route to imp...