The development of low-density materials with higher strength and stiffness, and more efficient engine and airframe structures is considered enabling technology for reusable hypersonic vehicles. Advanced structural concepts are required for minimum weight hot structures that will be fully reusable. Key design drivers are maximum heating rate, duration of heating, total heat load, flight envelope and type of propulsion system, mission life requirements, and containment of liquid hydrogen. For hot-structures applications in the range from 600-1800°F, advanced alloys of titanium, titanium and nickel aluminides, and metal-matrix composites are leading candidates because of their high specific properties. For temperatures in excess of 2000°F carbon-carbon and ceramic-matrix composites are the most structurally efficient materials. This paper addresses the technology issues for light weight hot structures, gives brief assessments of the state of the art, presents selected highlights of current research, and identifies areas requiring additional development.
Materials and Structures for Hypersonic Vehicles
Journal of Aircraft ; 26 , 11
1989-11-01
Miscellaneous
No indication
English
Materials and structures for hypersonic vehicles
NTRS | 1988
|Materials and Structures for Hypersonic Vehicles
NTIS | 1988
|Structures and materials for hypersonic vehicles
Engineering Index Backfile | 1966
|Materials and structures for hypersonic vehicles
AIAA | 1989
|Smart structures applications for hypersonic vehicles
SPIE | 1996
|