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An Appreciation of Missile Structures

Published online by Cambridge University Press:  04 July 2016

A. F. Newell
A. F. Newell*
Affiliation:
Department of Aircraft Design, The College of Aeronautics
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Extract

The invitation for this lecture requested “a review of missile structures from the viewpoint of an aircraft designer.” This is inevitable because most of the author’s experience has been associated with aircraft design. There are however many people actively concerned with missiles who have had considerable experience designing aircraft and would be better qualified to make a more realistic approach to the subject. The difficulty for an outsider making a review of missiles is justifying the “need to know” and then, having found out, or deduced interesting facts, he may be made aware that to publish them would contravene some security ruling.

Type
Astronautics and Guided Flight Section
Information
The Aeronautical Journal , Volume 65 , Issue 607 , July 1961 , pp. 483 - 497
Copyright
Copyright © Royal Aeronautical Society 1989

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References

1. U.S. Military Intelligence. Handbook of Guided Missiles of Germany and Japan.Google Scholar
2.Langstone, P. F., Hoyle, D. C. and Adams, J. H. (1960). Contour Etching of Steel. Aircraft Production. June 1960.Google Scholar
3.Farrar, D. J. (1959). The Bloodhound. Journal of the Royal Aeronautical Society, Vol. 63, p. 50, January 1959.Google Scholar
4.Anderson, O. A. (1959). Some Consideration of Structural Design Criteria for Guided Missiles. W.A.D.C. Technical Report 58-196, 1959.Google Scholar
5.Dow, N. F. (1960). Important Research Problems in Advanced Flight Structures Design, 1960. N.A.S.A. T.N. D-518.Google Scholar
6. U.S. Military Specification Mil-M-8856 (ASG), 1959.Google Scholar
7.Holback, G. E. and Burridge, S. C. (1954). A Production Application of Structural Adhesive Bonding. Aircraft Engineering, Vol. XXVI, pp. 225-6, July 1954.Google Scholar
8.Aviation Week, Vol. 72, No. 3, p. 84, 18th January 1960Google Scholar
9. U.S. Bureau of Naval Weapons. Contract No. 59-6228.6. Development and Test of Ceramic bonded stainless steel structural components. 30th June 1960.Google Scholar
10.Gerard, G. (1959). Structures and Materials. Space! Aeronautics, Vol. 31, No. 3, pp. 4041, March 1959.Google Scholar
11.Bossart, K. J. (1960). Convair (Astronautics) Division of General Dynamics Corporation. Private correspondence. September 1960.Google Scholar
12.Klein, B. (1960). Review of Design Information on Buckling of Unstiffened Thin-walled Circular Cylindrical Shells. A.R.S. Journal, Vol. 30, No. 1, January 1960.Google Scholar
13.Wilkinson, F. J. and Cottrell, C. L. M. (1958). Factors Affecting Weldability of High Strength One Per Cent Chromium-Molybdenum and other Steels. Welding and Metal Fabrication, May 1958.Google Scholar
14.Wilkinson, F. J. and Cottrell, C. L. M. (1960). Rocket Motor Cases. Aircraft Production, August and Sept. 1960.Google Scholar
15.Goree, W. S. and Nash, W. A. (1960). Elastic Stability of Circular Cylindrical Shells Stabilised by a Soft Elastic Core. University of Florida. May 1960.Google Scholar
16.Houghton, D. S. and Johns, D. J. (1960). Design Problems of Ballistic Missile Tank Structures. Department of Aircraft Design, College of Aeronautics, Cranfield. (To be published).Google Scholar
17.Hoffman, G. A., (1960). The Effect of Filamentary Materials on Pressure Vessel Design. The Rand Corporation Report, p. 1974, April 1960.Google Scholar