Fracture Mechanics Approaches for Characterizing Creep-Fatigue Crack Growth-Reference-Cited by-同舟云学术

Fracture Mechanics Approaches for Characterizing Creep-Fatigue Crack Growth

Published:1993-01-15 Issue:1 Volume:36 Page:1-20
ISSN:1340-8046
Container-title:JSME international journal. Ser. A, Mechanics and material engineering
language:en
Short-container-title:JSME international journal. Ser. A, Mechanics and material engineering

Author:

Saxena Ashok

Publisher

Japan Society of Mechanical Engineers

Subject

General Engineering

Link

https://www.jstage.jst.go.jp/article/jsmea1993/36/1/36_1_1/_pdf

Reference60 articles.

1. (1) Yoon, K. B., Saxena, A. and McDowell, D. L., Effect of Cyclic Overload on the Crack Growth Behavior during Hold Period at Elevated Temperature, International Journal of Fracture, (1992), (in press).

2. (2) James, L. A., The Effect of Frequency Upon the Fatigue-Crack Growth of Type 304 Stainless Steel at 1000 F, in Stress Analysis and Growth of Cracks, ASTM STP 513, American Society for Testing and Materials, (1972), p. 218.

3. (3) James, L. A., Hold-Time Effects on the Elevated Temperature Fatigue-Crack Propagation of 304 Stainless Steel, Nuclear Technology, Vol. 16, (1972), p. 521.

4. (4) Saxena, A. and Bassani, J. L., Time-Dependent Fatigue Crack Growth Behavior at Elevated Temperature in Fracture : Interactions of Microstructure, Mechanics and Mechanics, TMSAIME, Warrendale, PA, (1984), p. 357.

5. (5) Plumtree, A. and Yu, M., Influence of Waveshape on the High Temperature Crack Growth Behavior in Stainless Steel in Thermal and Environmental Effects in Fatigue: Research-Design Interface, Jaske, C., Hudak, S. and Mayfield, M. editors, PVP-Vol. 71, Book No. H00257, ASME, (1883), p. 13.

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