The crystal structure of thermal martensite is determined to be hcp, with the lattice parameters being a=0.

Hydrogen-induced delayed fracture during dynamic charging of TiNi shape memory alloy, and the role of atomic hydrogen, hydrogen-induced martensite and hydride in hydrogen-induced delayed fracture have been investigated.

Susceptibility to stress corrosion cracking (SCC) for the specimens with various hydrogen-induced martensite was measured by slow strain rate tests in a MgCl2 solution and in silicon oil at 143℃, respectively.

The morphology of stress-induced martensite and hydrogen-induced martensite is similar and could not be distinguished.

The creep damage and characteristics of interfacial failure and early failure of welded joints of martensitic heat-resistant steel (9Cr1MoVNbN) and bainitic heat-resistant steel(12Cr2MoWVTiB) with different creep strength of weld have been investigated by means of argon tungsten pulsed arc welding and high temperature accelerated simulation test.

The creep rupture strength,creep damage and characteristics of interfacial failure of dissimilar welded joint between martensitic heat-resistant steel(9CrlMoVNbN)and bainitic heat- resistant steel(12Cr2MoWVTiB)were investigated by means of argon gas shielded tungsten pulsed arc welding,high temperature accelerated simulation and creep rupture test.

Microstructure of a Fe-Cr-Co martensite heat-resistant steel heated in 850～1200 ℃ was studied by means of OM,SEM and XRD.