Evaluation of the possible susceptibility of titanium grade 7 to hydrogen embrittlement in a geologic repository environment

摘要

Ti grade 7 has been selected by the U.S. DOE as the current material of choice for the drip shield in the proposed high level waste (HLW) repository design. Due to the addition of Pd, Ti grade 7 exhibits enhanced resistance to hydrogen embrittlement (HE), yet there is relatively little data on HE of this material. Calculations of hydrogen absorption/recombination, solubility, and free energy of hydride formation in Ti and Pd are presented to qualitatively evaluate K{sub}(eff), the stress intensity factor for crack propagation induced by hydride formation, of Ti grade 7 in relation to other Ti alloys without Pd. Calculations were performed that show concentration of hydrogen in Ti grade 7 may exceed the critical hydrogen concentration, H{sub}c, where the material becomes embrittled, when accelerated passive dissolution of Ti grade 7 in concentrated Cl and Cl{sup}(-)+F{sup}- solutions as the source of hydrogen is considered.