Evaluation of thermo-mechanical fatigue crack propagation behavior of Ni-based single crystal superalloy CMSX-4

Author:

MUKAI Yasuhiro1,KAGAWA Hiroyuki1,SAKAGUCHI Motoki2,OKAZAKI Masakazu3

Affiliation:

1. Power Engineering R&D Center, The Kansai Electric Power Company

2. Department of Mechanical and Control Engineering, Tokyo Institute of Technology

3. Department of Mechanical Engineering, Nagaoka University of Technology

Publisher

Japan Society of Mechanical Engineers

Reference20 articles.

1. ASTM International, Standard test method for measurement of fatigue crack growth rates, ASTM Standards E647-08 (2008).

2. Bande, G. and Nemes, J. A., A new approach for single crystal materials analysis: theory and application to initial yielding, Journal of Engineering Materials and Technology, Vol.127 (2005), pp.119-129.

3. Bernstein, H. L. and Allen, J. M., Analysis of cracked gas turbine blades, Journal of Engineering for Gas Turbines and Power, Vol.114 (1992), pp.293-301.

4. Chan, K. S., Hack, J. E. and Leverant, G. R., Fatigue crack growth in MAR-M200 single crystals, Metallurgical Transactions A, Vol.18A (1987), pp.581-591.

5. Chan, K. S. and Leverant, G. R., Elevated-temperature fatigue crack growth behavior of MAR-M200 single crystals, Metallurgical Transactions A, Vol.18A (1987), pp.593-602.

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