Add to ORKGCrystalline materials exhibit an hysteresis behaviour when deformed cyclically. The origins of this tension-compression asymmetry have been fully understood only recently as being caused by an asymmetry in the junction strength and a reduced mean free path of dislocations inherited from previous deformation stage. Here, we investigate the saturation stress in fcc single- and poly-crystals using a Crystal Plasticity framework derived from dislocation dynamics simulations. In the absence of plastic localization and damage mechanism, the single-crystal mechanical response eventually saturates. We show that the cyclic saturation stress converges asymptotically to the monotonic saturation stress as the cycle plastic increment increases, and this...
International audienceCrystalline plasticity can take place through numerous, small, uncorrelated di...
Irreversible thermodynamics is employed as a framework to describe plastic deformation in pure metal...
A brief history and update are given in four examples demonstrating that polycrystals are generally ...
When a geometry is cyclically loaded under a mean stress or strain, incremental strain ratcheting or...
Most of crystalline materials develop an hysteresis on their deformation curve when a mechanical loa...
Three-dimensional (3-D) dislocation dynamics simulations were employed to examine the fundamental me...
The focus of the current work is on investigating the orientation dependent micromechanical response...
| openaire: EC/H2020/857470/EU//NOMATENAlloying metals with other elements is often done to improve ...
Modeling of scale-dependent characteristics of mechanical properties of metal polycrystals is studie...
Irreversible thermodynamics is employed as a framework to describe plastic deformation in pure metal...
In small-scale metallic systems, collective dislocation activity has been correlated with size effec...
Work-hardened metals typically possess large numbers of dislocations in complex three-dimensional co...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
International audienceCrystalline plasticity can take place through numerous, small, uncorrelated di...
Irreversible thermodynamics is employed as a framework to describe plastic deformation in pure metal...
A brief history and update are given in four examples demonstrating that polycrystals are generally ...
When a geometry is cyclically loaded under a mean stress or strain, incremental strain ratcheting or...
Most of crystalline materials develop an hysteresis on their deformation curve when a mechanical loa...
Three-dimensional (3-D) dislocation dynamics simulations were employed to examine the fundamental me...
The focus of the current work is on investigating the orientation dependent micromechanical response...
| openaire: EC/H2020/857470/EU//NOMATENAlloying metals with other elements is often done to improve ...
Modeling of scale-dependent characteristics of mechanical properties of metal polycrystals is studie...
Irreversible thermodynamics is employed as a framework to describe plastic deformation in pure metal...
In small-scale metallic systems, collective dislocation activity has been correlated with size effec...
Work-hardened metals typically possess large numbers of dislocations in complex three-dimensional co...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
International audienceCrystalline plasticity can take place through numerous, small, uncorrelated di...
Irreversible thermodynamics is employed as a framework to describe plastic deformation in pure metal...
A brief history and update are given in four examples demonstrating that polycrystals are generally ...