Environmentally assisted crack growth in a martensitic stainless steel

## Abstract Stress corrosion crack velocity and stress corrosion threshold stress intensity have been measured for 18Cr–10Ni–0,5Ti stainless steel in relation to environmental variations. These studies showed that both stage I and stage II growth rate dependence on K are influenced by environmental

The corrosion assisted stress crack growth rate of 304L stainless steel welds, was determined by the rising displacement test method. The experiments were carried out in a Boiling Water Reactor (BWR) environment, using a refreshed autoclave loop system at 288 C and 8 MPa of pressure. Pre-fatigued CT

## Abstract A study of the tensile flow behavior in the microstrain region of a martensitic stainless steel within the temperature range 77–273 K has been carried out. The ductility and work hardening in the low‐temperature region were found to be significantly larger than those of the ambient at t

A test device has been developed at P 0 Institute in order to investigate the mechanical behaviour of structural materials under high pressure of gaseous hydrogen. In this paper, preliminary results on fatigue crack propagation in a martensitic stainless steel are presented. A tremendous fatigue cra

## a b s t r a c t Virtual methods of predicting creep crack growth (CCG), using finite element analysis (FE), are implemented in a compact tension specimen, C(T). The material examined is an austenitic type 316H stainless steel at 550 °C, which exhibits power-law creep-ductile behaviour. A local