Failure Analysis of a Radio-Activated Accelerator Component
retired
-
Published:2019
Abstract
A double-walled, hemispherical metal beam exit window made of alloy 718 developed a crack during service, leading to coolant leakage. The window had been exposed to radiation damage from 800 MeV protons and a cyclic stress from 600 MPa tensile to near zero induced by numerous temperature cycles calculated to be from 400 to 30 deg C (752 to 86 deg F). The window was activated to >200 Sv/h. It was determined through analysis using remote handling techniques and hot cells that the crack initiated near a spot weld used to affix thermocouples to the window surface. In addition to analysis of the crack, some of the irradiated material from the window was used to measure mechanical properties. Hot cell techniques for preparation of samples and testing were developed to determine true operating conditions of radiation, strain, and temperature.
W.F. Sommer, S.A. Maloy, M.R. James, M. Louthan, J. Chen, H. Ullmaier, Failure Analysis of a Radio-Activated Accelerator Component, ASM Failure Analysis Case Histories: Failure Modes and Mechanisms, ASM International, 2019, https://doi.org/10.31399/asm.fach.modes.c9001632
Download citation file:
Oct. 28 – Nov. 1 | San Diego
Keep up-to-date at the premier event for the microelectronics failure analysis community. Register today for ISTFA 2024!