Materials Research for the Hypersonic Air Breathing Engine: A discussion of the materials to be used and a description of the methods and test machines used in high temperature materials research
Aircraft Engineering and Aerospace Technology
ISSN: 0002-2667
Article publication date: 1 January 1966
Abstract
The temperatures which will typically be encountered by various parts of a hypersonic air breathing engine at different Mach numbers are indicated in FIG. 1. A limited gain can be expected from the employment of cooling systems but in general the need for materials possessing heat resisting properties which are markedly superior to those conventionally used, such as the Nimonic range, is apparent at approximately Mach 4. Combustor flame stabilizing equipment for example must survive as an item of structure at temperatures around 1,300 deg. C. for Mach 4 and 1,500 deg. C. for Mach 5. Intake leading edges and ducts containing intake air are two further areas requiring the use of new high temperature metals once Mach 5 has been significantly exceeded. The combustor gas temperatures shown in FIG. 1, even allowing for limited cooling, require the use of a material capable of operating with a hot face temperature of 2,000 deg. C. or above. In this instance the material might be used as a non‐structural lining designed to lean on the cooler load‐carrying structure. In each of these instances the material is subjected to the effects of a high velocity oxidizing atmosphere.
Citation
Hemming, N.R. (1966), "Materials Research for the Hypersonic Air Breathing Engine: A discussion of the materials to be used and a description of the methods and test machines used in high temperature materials research", Aircraft Engineering and Aerospace Technology, Vol. 38 No. 1, pp. 26-35. https://doi.org/10.1108/eb034116
Publisher
:MCB UP Ltd
Copyright © 1966, MCB UP Limited