REFERENCES
- Source Book on Selection and Fabrication of Aluminum Alloys, ASM, Ohio, 1978.
- Standard Practice for Heat Treatment of Aluminum Alloys, ASTM B597-90, 1990.
- Davidson, D. L. and Lankford, J., Materials Science and Engin-eering, 1985, 74, 189.
- Polmear, I.J. Light Alloys, Metallurgy of the Light Metals, Edward Arnold Ltd., East Kilbride, Scotland, 1981.
- Dieter, G.E. Mechanical Metallurgy, 2nd ed. McGraw Hill Book Company, New York, 1986.
- Zaiken, E. and Ritchie, R. O., Materials Science and Engineering, 1985, 70, 151.
- Krupp, W. E., Hoeppner, D. W. and Walker, E. K., in Corrosion Fatigue, Chemistry, Mechanics and Microstructure, 1971, NACE-2, 468.
- McClintock, F. in Fracture of Solids, Proc. Inter. Conf. on Fracture, 1962, p. 65.
- Grosskreutz, J.C. and Shaw, G.G., Proc. Second Inter. Conf. on Fracture, 1969, 620.
- Bozack, M. J. and Beshears, R. D., Corrosion Science, 1993, 34 (4), 631.
- Buchheit, R. G. Jr., Moran, T. P. and Stoner, G. E., Corrosion, 1990, 46 (8), 610.
- Dorward, R. C., Corrosion, 1990, 46 (4), 348.
- Pao, P.S. and Wei, R.P. in Corrosion Fatigue Failures, Materials Handbook, 1986, 252.
- Speidel, M.O., “Hydrogen Embrittlement and Stress Corrosion Cracking of Aluminum Alloys”, Hydrogen Embrittlement and Stress Corrosion Cracking, ASM, Ohio, 1984.
- Rhodes, D. and Radon, I. C., Fatigue Eng. Mater. and Struct., 1979, 1 (4), 383.
- Ford, F. P., Corrosion, 1979, 35 (7), 281.
- ASTM E647-88a, Standard Test Method for Measurement of Fati-gue Crack Growth Rates, 1988, p. 658.
- Fractomat and Krak-Gage Instruction Manual, TTI Division, Har-trun Corporation, St. Augustine, Florida, 1987.
- Cheung-Mak, S.K.P. M.Sc. Thesis, Department of Mechanical Engineering, University of Saskatchewan, 1986.
- Wei, R. P., Pao, P. S., Hart, R. G., Weir, T. W. and Simmons, G. W., Met. Trans. A, 1980, 11A, 151.
- Speidel, M.O. Stress Corrosion Research, Sijthoffand Noordhoff Publishers, Alphen aan den Rijn, The Netherlands, 1979, p. 117.