Add to ORKGPresent experiments and computational simulations furnish a fundamental background to the understanding of plastic flow across sample sizes. It is shown that self-organized criticality (SOC) governs the size distribution of dislocation avalanches in micrometer-sized sample dimensions. Onset of SOC denotes inception of a dislocation network so that dislocation avalanches occur at constant criticality level irrespectively of the applied stress. In these microcrystals, we find that the ratio between the characteristic sample dimension and the mean free path traveled by the mobile dislocations, D/L-eff, rules the onset of strain hardening. This index simultaneously accounts for the role of loading orientation and dislocation density upon micros...
Recently acoustic signature of dislocation avalanches in HCP materials was found to be long tailed i...
The classical view of plasticity in metals assumed that any fluctuations in the underlying dislocati...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
Present experiments and computational simulations furnish a fundamental background to the understand...
Under stress, many crystalline materials exhibit irreversible plastic deformation caused by the moti...
The miniaturization trends on electronic components manufacturing, have challenged conventional know...
Nanoindentation techniques recently developed to measure the mechanical response of crystals under e...
Plastic deformation in crystalline materials consists of an ensemble of collective dislocation glide...
Self-organized criticality (SOC) is widely observed in systems ranging from creep deformation of sin...
A framework for investigating plasticity phenomena and their dependence on the underlying physical a...
International audienceThe dynamical behaviour of dislocations under load is analysed in terms of a b...
A distinction is made between uniform dislocation microstructures found in deformed materials where ...
We study strain-controlled plastic deformation of crystalline solids via two-dimensional discrete di...
Acoustic emission experiments on creeping ice as well as numerical simulations argue for a self-orga...
Nanomechanical devices are certain to play an important role in future technologies. Already sensors...
Recently acoustic signature of dislocation avalanches in HCP materials was found to be long tailed i...
The classical view of plasticity in metals assumed that any fluctuations in the underlying dislocati...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
Present experiments and computational simulations furnish a fundamental background to the understand...
Under stress, many crystalline materials exhibit irreversible plastic deformation caused by the moti...
The miniaturization trends on electronic components manufacturing, have challenged conventional know...
Nanoindentation techniques recently developed to measure the mechanical response of crystals under e...
Plastic deformation in crystalline materials consists of an ensemble of collective dislocation glide...
Self-organized criticality (SOC) is widely observed in systems ranging from creep deformation of sin...
A framework for investigating plasticity phenomena and their dependence on the underlying physical a...
International audienceThe dynamical behaviour of dislocations under load is analysed in terms of a b...
A distinction is made between uniform dislocation microstructures found in deformed materials where ...
We study strain-controlled plastic deformation of crystalline solids via two-dimensional discrete di...
Acoustic emission experiments on creeping ice as well as numerical simulations argue for a self-orga...
Nanomechanical devices are certain to play an important role in future technologies. Already sensors...
Recently acoustic signature of dislocation avalanches in HCP materials was found to be long tailed i...
The classical view of plasticity in metals assumed that any fluctuations in the underlying dislocati...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...