Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-22T05:02:08.306Z Has data issue: false hasContentIssue false

The Refractory Metals

Published online by Cambridge University Press:  04 July 2016

G. Llewelyn*
Affiliation:
Bristol Siddeley Engines Ltd

Extract

The refractory metals are usually referred to as metals which have melting points equal to, or higher than, chromium. A number of these metals, such as chromium, molybdenum, niobium, and tungsten are already being used quite extensively as alloying elements in both ferrous and non-ferrous alloys. Tungsten has been used in the lamp industry for many years, while molybdenum has been used for heating elements and niobium has been of interest in the atomic energy field.

The advancements in design and efficiency of aero engines has been associated with an increase in engine temperature. If this advancement is to continue, it will be necessary for a new family of alloys to be made available to the engineer. The current nickel-base high temperature alloys are now approaching their limit. It is difficult to be precise about these temperatures because the applications in terms of stress vary widely.

Type
Metallic Materials
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.Llewelyn, G. The Refractory Metals As Possible Future Aero-Engine Materials, presented at the Conference on New Engineering Materials, arranged by the Institution of Mechanical Engineers and held in Birmingham, October 1965.Google Scholar
2. Private Communication.Google Scholar
3.Jaffee, R. I., Sims, C. T. and Harwood, J. J. The Effect of Rhenium on the Fabricability and Ductility of Molybdenum and Tungsten, Proc. Third Plansee Conference, Reutte, June 1958.Google Scholar
4.Mcadam, G. D.J. Inst. Metals, 1964-65, 93, 559.Google Scholar
5.Briggs, D. D. A Survey of Niobium Alloys and their Strengthening Mechanisms, KM53, Dept. Mines and Technical Surveys. Ottawa.Google Scholar
6. Ref. 1.Google Scholar
7.Wong, J. Consolidation of Refractory Metals, AGARD Conference on Refractory Metals, Oslo, June, 1963.Google Scholar
8.Gibbons, T. B.Journal of the Metallurgical Club, University of Strathclyde, 1964-65, No. 17, 51.Google Scholar
9.Natter, B. and Machenschalk, R. Flow Turning (Shear Forming) of Refractory Metals, AGARD Conference on Refractory Metals, June 1963.Google Scholar
10.Mueller, C. P. and Bianchi, L. M. Infab.-Processing and Fabrication of Space Materials, Fifth Plansee Seminar, June 1964.Google Scholar
11. Handbook Molybdenum Metal, Climax Molybdenum Co. 1960.Google Scholar
12. Courtesy of Daniel Doncaster & Sons, Ltd., Sheffield, England.Google Scholar
14.Metcalfe, A. G. Joining of Refractory Metals, AGARD Conference on Refractory Metals, Oslo, June 1963.Google Scholar
15. Ref. 1.Google Scholar
17. Ref. 14.Google Scholar
18. Ref. 1.Google Scholar