![](/uploads/1/2/7/6/127608093/929591059.jpg)
![Preventing stress corrosion cracking Preventing stress corrosion cracking](/uploads/1/2/7/6/127608093/296727386.png)
![Cracking Cracking](/uploads/1/2/7/6/127608093/954674435.png)
Stress Corrosion Cracking (SCC) happens at the intersection of a susceptible material, working or residual stress experienced above the SCC threshold, and a corrosive environment. The cracks that develop under this unique set of circumstances would not have developed under the stress or within the given environment alone. Stress corrosion cracking of structural steels immersed in hot-dip galvanizing. The value of the threshold stress intensity factor, Kth, which Structural steel is the.
- W. K. Boyd and W. S. Hyler:J. Struct. Dit:, ASCE, 1973, vol. 99, pp. 1571–88.Google Scholar
- G. J. Biefer and B. C. Syrett:Proceedings Third Inter-Naval Corrosion Con- ference, pp. 19.1–19.24, British Royal Navy, Foxhill, 1969.Google Scholar
- G. Sandoz:Met. Trans., 1972, vol. 3, pp. 1169–76.CrossRefGoogle Scholar
- G. Sandoz:Met. Trans., 1972, vol. 3, pp. 1169–76.CrossRefGoogle Scholar
- B. F. Brown:The Theory of SCC in Alloys, pp. 186–204, NATO, Brussels, 1971.Google Scholar
- G. A. Wacker:Materials Performance and The Deep Sea, STP 445, pp. 68–87, ASTM, Philadelphia, 1969.CrossRefGoogle Scholar
- R. D. McDonald:Proceedings Ninth International Conference on Hot-Dip Galvanizing, pp. 172–88, Industrial Newspapers Ltd., London, 1970.Google Scholar
- A.J. Stavros and H. W. Paxton:Met. Trans., 1970, vol. 1, pp. 3049–55.Google Scholar
- H. E. Townsend:Stress Corrosion Cracking, A State of the Art, STP518, pp. 155–66, ASTM, Philadelphia, 1972.CrossRefGoogle Scholar
- T. Toh and W. M. Baldwin:Stress Corrosion Cracking and Etnbrittlement, pp. 176–86, Wiley, New York, 1956.Google Scholar
- C. S. Carter:Corrosion, 1971, vol. 27, pp. 471–77.Google Scholar
- M. H. Peterson. B. F. Brown, R. L. Newbegin, and R. E. Groover:Corrosion, 1967, vol. 23, pp. 142–48.Google Scholar
- S. Mostovoy, H. R. Smith, R. G. Lingwall, and E. J. Ripling:Eng. Fracture Mech, 1971, vol. 3, pp. 291–99.CrossRefGoogle Scholar
- A. M. Sullivan:Eng. Fracture Mech., 1972, vol. 4, pp. 65–76.CrossRefGoogle Scholar
- M. T. Wang and R. W. Staehle: Ohio State University, Columbus, Ohio, Unpublished Research, 1972.Google Scholar
- R. A. Oriani:Proceedings: Fundamental Aspects of Stress Corrosion Cracking, pp. 32–50, NACE, Houston, 1969.Google Scholar
- H. H. Johnson, J. G. Morlet, and A. R. Troiano:Trans. TMS-AIME, 1958, vol. 212, p. 528.Google Scholar
- R. A. Oriani and P. H. Josephic:Scr. Met., 1972, vol. 3, pp. 584–86.Google Scholar
- C.S. Carter:Met. Trans., 1972, vol. 3, pp. 584–86.CrossRefGoogle Scholar
- H. F. Bueckner:Fracture Toughness Testing, STP 381, p. 82, ASTM, Philadelphia, 1965.Google Scholar
- Metals Handbook, p. 98, Metal Park, Ohio, 1948.Google Scholar
![](/uploads/1/2/7/6/127608093/929591059.jpg)