Hydrogen embrittlement of a V4Cr4Ti alloy evaluated by different test methods

The hydrogen embrittlement behavior of a V4Cr4Ti alloy (NIFS-Heat 2) has been studied using tensile tests, impact tests and J integral tests. Hydrogen in the alloy was high up to 3 10 wppm by exposures in a hydrogen atmosphere. The alloy showed different sensitivities to the hydrogen embrittlement in the tests. Hydrogen-induced solid solution hardening occured but caused slight loss in the ductility of the alloy before 215 wppm H in the tensile test. However, the impact toughness, J(1c) and the tearing modulus (T-mat) decreased largely with increasing hydrogen concentration, indicated that the critical hydrogen concentration required to embrittle the alloy might be lower than 130 wppm. The fracture characteristics varied a lot for the different specimens. All these differences were thought being resulted from the stress concentration and the stress assisted hydrogen diffusion in the compact tension specimen and in the necking area of a tensile specimen. (C) 2003 Elsevier B.V. All rights reserved.