Effect of aging treatment on hydrogen embrittlement of PH 13-8 Mo martensite stainless steel

Abstract

The effect of aging treatment on hydrogen embrittlement of PH 13-8 Mo steel was investigated by tensile tests. The specimens were electrochemically hydrogen-charged in 0.5mol/L NaOH solution with 1g/L CH4N2S at room temperature for 24h, and then were tensioned to fracture at different tensile rates. The results show that hydrogen slightly increases the tensile strength of the steel at high tensile rate (20mm/min), but decreases the tensile strength at low tensile rate (0.5mm/min and 0.03mm/min). In the range of temperature from 540°C to 750°C, the specimen aged at 650°C has the highest resistance to hydrogen embrittlement, which can be attributed to reverted austenite. At tensile rate of 0.03mm/min, the SEM fractograph reveals quasi-cleavage and intergranular fracture mode for hydrogen-charged specimens aged at 540°C, 600°C,700°C and 750°C while dimple-type fracture mode for hydrogen-charged specimens aged at 650°C.