D-c electric-potential method applied to thermal/mechanical fatigue crack growth-Reference-Cited by-同舟云学术

D-c electric-potential method applied to thermal/mechanical fatigue crack growth

Published:1987-03 Issue:1 Volume:27 Page:106-112
ISSN:0014-4851
Container-title:Experimental Mechanics
language:en
Short-container-title:Experimental Mechanics

Author:

Hartman G. A.,Johnson D. A.

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering,Mechanics of Materials,Aerospace Engineering

Link

http://link.springer.com/content/pdf/10.1007/BF02318872.pdf

Reference13 articles.

1. ASTM Special Technical Publication 877, “Automated Test Methods for Fracture and Fatigue Crack Growth,” ed. Cullen, Landgraff, Kaisand, Amer. Soc. Test. and Mat. (1985).

2. Wei, L.P. and Brazill, R.L., “An a.c. Potential System for Crack Length Measurement,” The Measurement of Crack Length and Shape During Fracture and Fatigue, ed. C.J. Beevers, 190–201 (1980).

3. Gangloff, R.P., “Electric Potential Monitoring of Crack Formation and Subcritical Crack Growth From Small Defects,”Fatigue of Eng. Mat. and Struct.,4 (1),15–33 (1981).

4. Van Stone, R.H., Krueger, D.D. and Duvelius, L.T., “Use of a d-c Potential Drop Crack Monitoring Technique in the Development of Defect Tolerant Disk Alloys,” Fracture Mechanics: Fourteenth Symposium-Volume II: Testing and Applications, ASTM STP 791, ed. J.C. Lewis and G. Sines, Amer. Soc. Test. and Mat., II-553 and II-578 (1983).

5. Marchand, Norman and Pelloux, Regis M., “Thermal-Mechanical Fatigue Crack Growth in Inconel X-750,” Proc. Int. Conf. on Time-Dependent Fracture, ed. K. Karauz and A. Karuz, Martinus Nijhoff (1984).

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