Hostname: page-component-7479d7b7d-wxhwt Total loading time: 0 Render date: 2024-07-13T16:30:13.248Z Has data issue: false hasContentIssue false
  • English
  • Français

Beryllium

Published online by Cambridge University Press:  04 July 2016

C. J. Leadbeater
C. J. Leadbeater*
Affiliation:
Ministry of Aviation
Get access Rights & Permissions [Opens in a new window]

Extract

Beryllium is a metal possessing some attractive properties for aerospace applications, but its advantages are offset by the present inability to achieve acceptable isotropic ductility, by the high cost of the fabricated metal and by the special health precautions required for workshop treatments and handling.

Considerable research and development have been applied to the technology of beryllium during the past decade and comprehensive data are available in books and the proceedings of international conferences held in London, Gatlinburg, Philadelphia and Grenoble. Outstanding among the various problems discussed have been modes of deformation and fracture, the efficiency of various methods of purification and the influence of increased purification on the behaviour of the metal.

Type
Metallic Materials
Information
The Aeronautical Journal , Volume 70 , Issue 668 , August 1966 , pp. 781 - 787
Copyright
Copyright © Royal Aeronautical Society 1966

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.White, D. W. and Burke, T. E.The Metal Beryllium, ASM, Cleveland, 1954.Google ScholarPubMed
2.Darwin, G. W. and Buddery, J. H.Beryllium, Academic Press, 1960.Google Scholar
3. London Conference on Beryllium 1961. The Metallurgy of Beryllium, Chapman and Hall Ltd., 1963.Google Scholar
4. Gatlinburg (U.S.A.) Conference on Beryllium. 1963.Google Scholar
5. Philadelphia (U.SA.) Conference on Beryllium. The Metallurgical Society of AIME, 1964.Google Scholar
6. Grenoble (France) Conference on Beryllium, 1965.Google Scholar
7.O'Rourke, R. G., et al. Final Report on rolling improved beryllium sheet, ML-T.D.R-64-193 under Contract AF33 (600)-43037.Google Scholar
8.Wikle, K. W., Armstrong, J. W. and Perrin, H. N., Production of beryllium sheets finished flat to gauge. Final Report Brush Beryllium Co. AF33(60O)-35829.Google Scholar
9.Fenn, R. W., Glass, R. A., Needham, R. A. and Steinberg, M. A.Beryllium-Aluminium alloys, AIAA 5th Annual Structures and Materials Conference, 1964, p. 92.Google Scholar
10.Christensen, R. H. 2nd Progress Report by the Committee on Beryllium Metallurgy of the Materials Advisory Board, 1964.Google Scholar
11.Nash, S. G. Tests carried out under Ministry of Aviation Contract.Google Scholar
12.Schmidt, R.ASM Metal Progress 1964, Dec. p. 133.Google Scholar
13.Murphy, H. A. and O’Rourke, R. G. Development of very high strength beryllium wire. Report BBC-TR-382-243, Contract now 64-0162X, 1964, D.M.I.C. No. 58990.Google Scholar
14.Gerds, A. F. and Boulger, F. W. The fabrication of beryllium. RS1C-227, Contract No. DA-01-021-AMC-203(2). Battelle Memorial Institute.Google Scholar
15.Jacobson, M. I., Almeter, F. M. and Burke, E. C.Trans. ASM, 1962, 55 492.Google Scholar