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References
P. M. SCOTT and D. SILVESTER, UK Offshore Steel Research Project, Interim Technical Report UKOSRP 3/02 (25 May 1977)
O. VOSIKOVSKY,J. Test. Eval. 6 (1978) 175.
T. W. CROOKER, F. D. BOGAR and W. R. CARES, “Corrosion-Fatigue Technology” ASTM STP 642 (American Society for Testing and Materials, Philadelphia, 1978) p. 189.
F. D. BOGAR and T. W. CROOKER,J. Test. Eval. 7 (1979) 155.
P. M. SCOTT, “Developments in Fracture Mechanics-I”, edited by G. G. Chell (Applied Science, 1979) p. 221.
T. W. THORPE, P. M. SCOTT, A. RANCE and D. SILVESTER,Int. J. Fatigue 5 (1983) 123.
M. SUMITA, N. MARUYAMA and I. UCHIYAMA,Tetsu-To-Hagane 69 (1983) 1479.
E. BARDAL and P. J. HAAGENSEN, Proceedings of the 9th Annual Offshore Technology, Conference, Vol. 2 (1977) p. 381.
W. C. HOOPER and W. H. HARTT,Corrosion 34 (1978) 320.
W. H. HARTTand W. C. HOOPER,36 (1980) 107.
ASTM Committee E-24, “Fatigue Crack Growth Measurement and Data Analysis”, ASTM STP 738 (American Society for Testing and Materials, Philadelphia, 1981) p. 340.
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Horibe, S., Sumita, M. Transient fatigue crack growth caused by change in environmental conditions. J Mater Sci Lett 4, 1498–1500 (1985). https://doi.org/10.1007/BF00721376
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DOI: https://doi.org/10.1007/BF00721376