Kinematic hardening rule in single crystals

This work is devoted to large strain models for anisotropic hardening in elasticplastic materials. The main part of the paper deals with various large strain extensions of the Prager model (linear kinematic h~dening) within the framework of generalized standard materials. These models are derived, c

## Abstract The change in microstructure during tensile deformation of magnesium single crystals by basal slip was studied with electron backscatter diffraction in the scanning electron microscope. Two samples were plastically deformed up to shear strains of 0.37 and 1.28 belonging to work‐hardenin

Stress-strain curves of Cd-single crystals were measured at low temperatures down to 4.2 K. The resolved critical shear stress ro/p decreases with increasing temperature, showing a slope three to four lines larger in the interval 4.2-30 K than in the interval 30-300 K. The work-hardening coefficient

## Abstract Shear stress – shear strain curves of 0.14 at.%Ti alloyed Zn single crystals were measured in compression at different temperatures and shear strain rates. The work‐hardening coefficient for basal slip increases with decreasing temperature and increasing shear strain rate. The work‐hard