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Fracture Analysis of Nodular Cast Iron By X-ray Fractography

Published online by Cambridge University Press:  06 March 2019

Kazuyuki Matsui ,
Yukio Hirose ,
Akiyoshi Chadani  and
Keisuke Tanaka
Kazuyuki Matsui
Affiliation:
Ishikawa Seisakusyo, LTD. Minamimorimoto Kanazawa, 92U-UI, Japan
Yukio Hirose
Affiliation:
Faculty of Material Science, Kanazawa University 1-1, Marunouchi, Kanazawa 920, Japan
Akiyoshi Chadani
Affiliation:
Faculty of Material Science, Kanazawa University 1-1, Marunouchi, Kanazawa 920, Japan
Keisuke Tanaka
Affiliation:
Faculty of Engineering Science, Kyoto University Yoshida Honmachi, Sakyo-ku, Kyoto, Japan
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Extract

Fracture accidents of engineering structures and machines in operation sometimes result from defects. One of the purposes of fracture analysis are to determine the causes of failure, and to use the information to prevent similar failure accidents. It is important to obtain quantitative analysis from the fracture surface. X-ray diffraction technique as well as Electron Fraotography has been widely used for fracture analysis of engineering structures and machines.

Type
XII. Analysis of Stress and Fracture by Diffraction Methods
Information
Advances in X-Ray Analysis , Volume 34: Thirty-Ninth Annual Conference on Applications of X-ray Analysis, July 30 - August 3, 1990 , 1990 , pp. 711 - 718
Copyright
Copyright © International Centre for Diffraction Data 1990

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References

1. Matsui, K., Hirose, Y., Chadani, A., Tanaka, K., “X-Ray Fractographic Study on Fracture of a Machine Part”, 2nd International Conference on Residual Stress. 833 (1989)Google Scholar
2. Matsui, K., Hirose, Y., Chadani, A., Tanaka, K., “X-Ray Fractography and Its Application to Failure Analysis”, J. Soci. Mat. Sci. Jap., 39:614(1990)Google Scholar
3. Hirose, Y., Tanaka, K., “X-Ray Measurement of Residual Stress near Fatigue Fracture Surfaces of High Strength Steel”, Advances in X-Ray Analysis. 29:265(1986)10.1154/S0376030800010351Google Scholar
4. Matsui, K., Hirose, Y., Yajima, Z., Tanaka, K., “X-Ray Fractography on Fracture Surface by Failure of Ductile Cast Iron” X-ray Studies on Mechanical Behavior of Materials. 101(1988)Google Scholar
5. Lian, P. K., Landes, J. D., “Influence of Prestrain History on Fracture Toughness Properties of Steels” Metallurgical Trans., 17A:473(1986)Google Scholar
6. Levy, N., Marcal, P. V., Ostengren, W. J., Rice, J. R., “Small Scale Yielding near a Crack in Plane Strain: A Finite Analysis”, Int. J. Frac., 7:143(1971)Google Scholar