Basic cryogenics and materials. Phase 1
Abstract
The effects of cryogenic temperatures on the mechanical and physical properties of materials are summarized. Heat capacity and thermal conductivity are considered in the context of conservation of liquid nitrogen, thermal stability of the gas stream, and the response time for changes in operating temperature. Particular attention is given to the effects of differential expansion and failure due to thermal fatigue. Factors affecting safety are discussed, including hazards created due to the inadvertent production of liquid oxygen and the physiological effects of exposure to liquid and gaseous nitrogen, such as cold burns and asphyxiation. The preference for using f.c.c. metals at low temperatures is explained in terms of their superior toughness. The limitations on the use of ferritic steels is also considered. Nonmetallic materials are discussed, mainly in the context of their LOX compatibility and their use in the form of foams and fibers as insultants, seals, and fiber reinforced composites.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- June 1985
- Bibcode:
- 1985STIN...8532215W
- Keywords:
-
- Asphyxia;
- Conservation;
- Cryogenic Fluids;
- Fiber Composites;
- Insulation;
- Liquid Nitrogen;
- Liquid Oxygen;
- Materials Handling;
- Mechanical Properties;
- Safety;
- Specific Heat;
- Thermal Conductivity;
- Thermal Fatigue;
- Thermal Stability;
- Cryogenic Temperature;
- Cryogenics;
- Low Temperature Physics;
- Engineering (General)