The tensile and the compressional deformation recovery ratios of high-density polyethylene-natural rubber blending material, the effects of temperature on its tensile deformation recovery ratio and its mechanical properties are studied, and the mechanism of its shape memory is also discussed.

The deformation recovery of rubber modified PE-HD prepared via blending and crosslinking was studied.

Experiment results showed that after quenching and up-quenching heat treatment,the shape recovery rate of the alloys increased when the solid-solution temperature changed from 650 ℃ to 900 ℃,and reached the maximum value at 850 ℃.

The shape recovery ratio in Fe 14Mn 5Si 8Cr 4Ni 0.

The shape recovery ratio in the alloy 1 with ultralow carbon contnet increases with increasing the aging time when aged at 1123K.

The effects of aging time on shape memory effect,resistivity and microstructure of Fe 14Mn 5Si 8Cr 4Ni 0 2C shape memory alloy have been studied The results show that the shape recovery ratio will increase with increasing aging time,when the aging temperature is at 1123K.