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Recent Developments in High Strength Aluminium Alloys

Published online by Cambridge University Press:  04 July 2016

W. A. Baker
Affiliation:
Alcan Industries Ltd
A. J. Bryant
Affiliation:
Aluminium Laboratories Ltd
R. J. Durham
Affiliation:
Aluminium Laboratories Ltd
R. W. Elkington
Affiliation:
Aluminium Laboratories Ltd

Extract

As The strength of aluminium alloys is increased, other desirable properties are increasingly sacrificed and, as with other metallic materials, a major difficulty in developing better strong alloys is to assess these other properties in terms which are satisfactory indices of service performance. This difficulty becomes more acute as strength is increased and further progress demands that supplier and user are in the closest possible agreement on methods of assessing the properties involved and on where the line must be drawn between acceptable and unacceptable material behaviour. Discussion of this aspect of strong light alloy development is always opportune and much of what is said in this paper is intended to provoke constructive discussion between supplier and user on this subject.

Type
Metallic Materials
Copyright
Copyright © Royal Aeronautical Society 1966

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References

1.Clark, A. J., Martin, A. R. and Steele, L. E.Metallurgia No 376, Vol 63, 1961.Google Scholar
2.Bryant, A. J.J Inst Metals 1961–62, Vol 90, pp 406–7 and J Inst Metals, Vol 94, pp 94–99. February 1966.Google Scholar
3.Woodward, A. R., Gunn, K. W. and Forrest, G.Proceedings of the International Conference on Fatigue of Metals, 1956 (sponsored by IMechEng and ASME).Google Scholar
4.Woodward, A. R., Aluminium Laboratories Ltd. Unpublished work.Google Scholar
5.Forsyth, P. J. E. and Stubbington, C. A.J Inst Metals, Vol 85, pp 339343, 1956-57.Google Scholar
6.Woodward, A. R., Aluminium Laboratories Ltd. Unpublished work.Google Scholar
7.Cibula, A., BNFMRA. Unpublished information.Google Scholar
8.Bryant, A. J.Discussion. J Inst Metals, Vol 86, p 521, 1957-58.Google Scholar
9.Steele, L. E. and Collins, D. L. W.J Inst Metals, Vol 88, p 260, 1959-60.Google Scholar
10. Derived from Aluminum Company of America, Tech Paper No 17, 1962.Google Scholar
11. BNFMRA. Unpublished work.Google Scholar
12.Fielding, J., Hawker Siddeley Aviation. Private communication.Google Scholar
13.Elkington, R. W., Aluminium Laboratories Ltd. Unpublished work.Google Scholar
14. Aluminium Laboratories, Banbury. Unpublished work.Google Scholar
15. BNFMRA. Private communication.Google Scholar
16.Meikle, G.J Inst Metals, Vol 85, p 540, 1956-57.Google Scholar
17.Doyle, W. M. and Jones, R. G., Aeronautical Quarterly, pp 297–331, November 1959.CrossRefGoogle Scholar
18. British Pat 952 288.Google Scholar
19.Polmear, I. J.Nature, Vol 186, p 303, 1960.Google Scholar
20. Aluminium Laboratories. Current work.Google Scholar
21.Irwin, G. R.Fracture. Encyclopedia of Physics, Vol VI, pp 551590. Edited by Flugge, S.. Springer, Berlin. 1958.Google Scholar
Irwin, G. R.Fracture Mechanics. Structural Mechanics, pp 557594. Pergamon Press, 1960.Google Scholar
Irwin, G. R. and Srawley, J. B.Progress in the Development of Crack Toughness Fracture Tests. Material priifiing, Vol 4, No 1, pp 111, January 1962.Google Scholar