The wear regularities of a new type austenite─bainite dual─phase steel,under the condition of boundary lubrication and sliding wear,have been studied.

The interface lattice misfitting theory can not explain that TiC and CaS act as an efficient catalyzer during the non-equilibrium solidification of austenite steel.

The performance of granular γ+(Fe,Mn)3C eutectics reinforced austenite steel matrix composites (EAMC) was studied, and the strengthening/toughness match and wear resistance were analyzed.

The effect of sliding velocity on the friction behaviors of in situ granular 7+(Fe, Mn)3C eutectics reinforced austenite steel matrix composites (EAMC) has been investigated by the pin-on disc dry sliding tests and scanning electron microscopy (SEM) observation.

The direct relationship between stacking fault energy and phase transformation driving force of austenitic steels and the effect of stacking fault energy and strain energy on the morphology of martensite are deduced.

The effects of stacking fault energy and strength on phase transformation in cryogenic austenitic steels were studied.

On the basis of systematical study,the comprehensive effects of alloying elements in cryogenic austenitic steels were analyzed.

The recent developments of cryogenic austenitic steels are reviewed.