ANOMALOUS TEMPERATURE-DEPENDENCE OF THE YIELD STRESS BY (11(2)OVER-BAR-2)((11)OVER-BAR-23) SECONDARY PYRAMIDAL SLIP IN CADMIUM CRYSTALS .1.EXPERIMENTS

Yield stress sigma(y) due to {1122BAR}[1123BAR] slip (SPCS) in cadmium crystals is proportional to temperature T (anomalous temperature depe ndence). An increment of strain rate causes sigma(y) to increase. The deformation proceeds inhomogeneously with the nucleation and growth of bundles of slip steps (BSS) which correspond to etch pit bands (EPB). The strain epsilon(B) in BSS or EPB is constant independent of applie d strain. The density of dislocations in EPB is nearly constant indepe ndent of strain, strain rate and T. Epsilon(B) and the mean free path of edge dislocations decrease exponentially with increasing T. The abo ve results suggest that the deformation mode by SPCS is similar to Lud ers deformation and the growth rate of BSS or EPB width increases with increasing T and strain rate. The anomalous temperature dependence is interpreted by the immobilization of edge dislocations and the growth rate related with double cross slip.