Inference of Fatigue Crack Closure Stresses from Ultrasonic Transmission Measurements
10.1007/978-1-4684-4769-9_14
Crossref book-chapter
Springer US
Nondestructive Methods for Material Property Determination (297)
Bibliography

Thompson, R. G., Fiedler, C. J., & Buck, O. (1984). Inference of Fatigue Crack Closure Stresses from Ultrasonic Transmission Measurements. Nondestructive Methods for Material Property Determination, 161–170.

Authors 3
  1. R. G. Thompson (first)
  2. C. J. Fiedler (additional)
  3. O. Buck (additional)
References 16 Referenced 15
  1. H. G. Tattersall, “The ultrasonic pulse-echo techniques as applied to adhesion testing,” J. Phys. D., Appl. Phys. 6, 819 (1973). (10.1088/0022-3727/6/7/305) / J. Phys. D., Appl. Phys. by HG Tattersall (1973)
  2. R. B. Thompson, “A quasi-static model for the interaction of elastic waves with a planar array of voids,” unpublished technical report of Rockwell International Science Center (1973). / A quasi-static model for the interaction of elastic waves with a planar array of voids by RB Thompson (1973)
  3. G. A. Alers and L. J. Graham, “Reflection of ultrasonic waves by thin interfaces,” 1975 Ultrasonics Symp. Proc., (IEEE, New York, 1975), pp. 579–582. / Reflection of ultrasonic waves by thin interfaces / 1975 Ultrasonics Symp. Proc. by GA Alers (1975)
  4. G. A. Alers and R. B. Thompson, “Application of trapped modes in layered media to the testing of adhesive bonds,” 1976 Ultrasonics Symp. Proc. (IEEE, New York, 1976), pp. 138–142. / Application of trapped modes in layered media to the testing of adhesive bonds / 1976 Ultrasonics Symp. Proc. by GA Alers (1976)
  5. R. B. Thompson, B. J. Skillings, L. W. Zachary, L. W. Schmerr, and O. Buck, “Effects of crack closure on ultrasonic transmission,” Review of Progress in Quantitative Nondestructive Evaluation 2, D. O. Thompson and D. E. Chimenti, eds. (Plenum Press, New York, in press).
  6. N. F. Haines, “The theory of sound transmission and reflection at contacting surfaces,” Report RD/B/N4711 (Central Electricity Generating Board, Research Division, Berkeley Nuclear Laboratories, Berkeley, England, 1980). / The theory of sound transmission and reflection at contacting surfaces / Report RD/B/N4711 by NF Haines (1980)
  7. A. B. Wooldridge, “The effects of compressive stress on the ultrasonic response of steel-steel interfaces and of fatigue cracks,” Report NW/SSD/RR/42/79 (Central Electricity Generating Board, Northwestern Region, Manchester, England, 1979). / The effects of compressive stress on the ultrasonic response of steel-steel interfaces and of fatigue cracks / Report NW/SSD/RR/42/79 by AB Wooldridge (1979)
  8. A. B. Wooldridge, “The effects of compressive stress and contaminating liquids on the ultrasonic detection of fatigue cracks,” Revue du Cethedec, 17eannee, 4etrimestre 1980-NS80–2, 233–244 (1980). / The effects of compressive stress and contaminating liquids on the ultrasonic detection of fatigue cracks / Revue du Cethedec, 17eannee, 4etrimestre 1980-NS80–2 by AB Wooldridge (1980)
  9. O. Buck, B. J. Skillings, and L. K. Reed, “Simulation of closure: Effects on crack detection probability and stress distributions,” Review of Progress in Quantitative Nondestructive Evaluation 2, D. O. Thompson and D. E. Chimenti, eds. (Plenum Press, New York, in press).
  10. W. Elber, “Fatigue crack closure under cyclic tension,” Engr. Frac. Mech. 2, 37–45 (1970). (10.1016/0013-7944(70)90028-7) / Engr. Frac. Mech. by W Elber (1970)
  11. O. Buck, C. L. Ho, and H. L. Marcus, “Plasticity effects in crack propagation,” Engr. Frac. 5, 23–34 (1973). (10.1016/0013-7944(73)90004-0) / Engr. Frac. by O Buck (1973)
  12. S. Suresh, G. F. Zaminski, and R. O. Ritchie, “Oxide-induced crack closure: An explantion for near-threshold corrosion fatigue crack growth behavior,” Metal. Trans. A 12A, 1435–1443 (1981). (10.1007/BF02643688) / Metal. Trans. A by S Suresh (1981)
  13. S. Suresh and R. O. Ritchie, “A geometrical model for fatigue crack closure induced by fracture surface roughness,” Metal. Trans A 13A, 1627–1631 (1982). (10.1007/BF02644803) / Metal. Trans A by S Suresh (1982)
  14. R. B. Thompson and C. Fiedler, “Effects of crack closure on the transmission and mode conversion of ultrasonic waves,” to be submitted to J. Nondestructrive Evaluation.
  15. D. O. Thompson, D. K. Rehbein, B. J. Skillings, and J. F. Smith, “Inference of compressive stresses at joined interfaces using ultrasonic reflectivity,” these proceedings.
  16. S. Golan, “Measuring of closure forces with ultrasonic diffracted waves,” in New Procedures in Nondestructive Testing, P. Holler, ed. (Springer-Verlag, Berlin, in press).
Dates
Type When
Created 13 years, 5 months ago (March 11, 2012, 5:49 p.m.)
Deposited 5 years, 7 months ago (Jan. 29, 2020, 3:33 p.m.)
Indexed 2 months ago (July 2, 2025, 3:29 p.m.)
Issued 41 years, 8 months ago (Jan. 1, 1984)
Published 41 years, 8 months ago (Jan. 1, 1984)
Published Print 41 years, 8 months ago (Jan. 1, 1984)
Funders 0

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@inbook{Thompson_1984, title={Inference of Fatigue Crack Closure Stresses from Ultrasonic Transmission Measurements}, ISBN={9781468447699}, url={http://dx.doi.org/10.1007/978-1-4684-4769-9_14}, DOI={10.1007/978-1-4684-4769-9_14}, booktitle={Nondestructive Methods for Material Property Determination}, publisher={Springer US}, author={Thompson, R. G. and Fiedler, C. J. and Buck, O.}, year={1984}, pages={161–170} }