Title of article
Life extension simulation of aged reactor pressure vessel material using probabilistic fracture mechanics analysis on a massively parallel computer Original Research Article
Author/Authors
S. Yoshimura، نويسنده , , M.-Y. Zhang، نويسنده , , G. Yagawa، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1995
Pages
10
From page
341
To page
350
Abstract
This paper describes a probabilistic fracture mechanics (PFM) computer program using the parallel Monte Carlo (MC) algorithm. In the stratified MC algorithm, a sampling space of probabilistic variables such as fracture toughness value, the depth and aspect ratio of an initial semi-elliptical surface crack is divided into a number of small cells. Fatigue crack growth simulations and failure judgements of those samples are performed cell by cell in parallel. The developed PFM program is implemented on a massively parallel computer composed of 512 processors. As an example, some life extension simulations of aged reactor pressure vessel material are performed, taking analysis conditions of normal and upset operations of PWRs. The results show that cumulative breakage probabilities of the analyzed model are of an order of 10−7 (1/crack), and that parallel performance always exceeds 90% owing to an employed function of dynamic workload balancing. It is also demonstrated that the degradation of fracture toughness values due to neutron irradiation and the probabilistic variation of fracture toughness values significantly influence failure probabilities.
Journal title
Nuclear Engineering and Design Eslah
Serial Year
1995
Journal title
Nuclear Engineering and Design Eslah
Record number
887929
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