Affiliation:
1. Korea Atomic Energy Research Institute
2. Soongsil University
Abstract
To design HTGR components for up to 1000oC, their creep curves are necessary during a design process. In this study, the full creep curves were modeled by the nonlinear least square fitting method using the Kachanov-Rabotnov (K-R) creep model. A series of creep data was obtained experimentally under various stress levels for Hastelloy-X at 950oC, and the data was used to model the creep curves. The K-R model gave a poor description of modeling creep curves, but the modified K-R one, which has another variable, K in the K-R model, was in better agreement than the K-R one. It was found that the λ parameter in the K-R model was constant regardless of the stress variations. The λ value was about 3.9 for the K-R model and about 5.8 for the modified one.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference10 articles.
1. W.G. Kim, S.N. Yin, W.S. Ryu and J.H. Chang: Key Eng. Materials, Vols. 326-328 (2006) p.1105.
2. K. Maruyama, C. Harada, H. Oikawa: J. Soc. Mater. Sci., Japan, Vol. 34(1985), p.1289.
3. W.G. Kim, S.H. Kim, and W.S. Ryu: KSME Internal Journal, Vol. 16 (2002), p.420.
4. R.K. Penny and D.L. Marriott: Design for Creep, Chapman & Hall (1995).
5. R.K. Penny: J. Metals and Materials, Vol. 8 (1974), p.278.
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