Title :
Method for estimating failure probabilities of structural components and its application to fatigue problem of internally cooled superconductor
Author_Institution :
Toshiba Corp., Yokohama, Japan
Abstract :
A method of assessing the fatigue life of a component containing defects is presented. The method incorporates a probabilistic approach into the CEGB two-criteria method. The aspect ratio of the initial defect, the proportional coefficient of the fatigue crack growth law, and the threshold stress intensity range are assumed to be treated as random variables in the method. Examples are given to illustrate the method´s application to the reliability analysis of the conduit for an internally cooled cabled superconductor (ICCS) subjected to cyclic quench pressure. The possible failure mode and mechanical properties contributing to the fatigue life of the thin conduit are discussed using analytical and experimental results
Keywords :
failure analysis; fatigue; fusion reactor safety; reliability; superconducting cables; CEGB two-criteria method; cyclic quench pressure; defected components; failure mode; failure probabilities; fatigue crack growth; fatigue life; internally cooled cabled superconductor; internally cooled superconductor; mechanical properties; probabilistic approach; reliability analysis; structural components; threshold stress intensity; Failure analysis; Fatigue; Life estimation; Material properties; Mechanical factors; Plastics; Random variables; Stress; Superconducting cables; Surface cracks;
Conference_Titel :
Fusion Engineering, 1989. Proceedings., IEEE Thirteenth Symposium on
Conference_Location :
Knoxville, TN
DOI :
10.1109/FUSION.1989.102416
