Materials and light thermal structures research for advanced space explorationThe Light Thermal Structures Center at the University of Virginia sponsors educational and research programs focused on the development of reliable, lightweight structures to function in hostile thermal environments. Technology advances in materials and design methodology for light thermal structures will contribute to improved space vehicle design concepts with attendant weight savings. This paper highlights current research activities in three areas relevant to space exploration: low density, high temperature aluminum alloys, composite materials, and structures with thermal gradients. Advances in the development of new aluminum-lithium alloys and mechanically alloyed aluminum alloys are described. Material properties and design features of advanced composites are highlighted. Research studies in thermal structures with temperature gradients include inelastic panel buckling and thermally induced unstable oscillations. Current and future research is focused on the integration of new materials with applications to structural components with thermal gradients.
Document ID
19910067725
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Thornton, Earl A. (Virginia Univ. Charlottesville, VA, United States)
Starke, Edgar A., Jr. (Virginia Univ. Charlottesville, VA, United States)
Herakovich, Carl T. (Virginia, University Charlottesville, United States)