Multilayer insulation
Label
Multilayer insulation
Name
Multilayer insulation
Source
nasat
Actions
Incoming Resources
- Subject of13
- Issues of long-term cryogenic propellant storage in microgravity, C.B. Muratov, V.V. Osipov, V.N. Smelyanskiy
- Synchrotron VUV and soft X-ray radiation effects on aluminized Teflon ® FEP, Joyce A. Dever [and three others]
- Investigation of insulation materials for future radioisotope power systems, Peggy A. Cornell [and three others]
- Analytical investigation of thermal degradation of high-performance multilayer insulation in the vicinity of a penetration, by William R. Johnson and Earl L. Sprague
- Analyses of Hubble Space Telescope aluminized-teflon insulation retrieved after 19 years of space exposure, Kim K. de Groh [and four others]
- Analyses of Hubble Space Telescope aluminized-teflon multilayer insulation blankets retrieved after 19 years of space exposure, Kim K. de Groh [and three others]
- The effect of heating on the degradation of ground laboratory and space irradiated Teflon ® FEP, Kim K. de Groh, Morgana Martin
- Comparison of observed beta cloth interactions with simulated and actual space environment, R.R. Kamenetzky and M.M. Finckenor
- Design and fabrication of a tank-applied broad area cooling shield coupon, J.J. Wood and M.R. Middlemas
- An overview of SBIR phase 2 materials structures for extreme environments, Hung D. Nguyen and Gynelle C. Steele
- Design factors for applying cryogen storage and delivery technology to solar thermal propulsion, Marc G. Millis
- Hybrid thermal control testing of a cryogenic propellant tank, David W. Plachta
- Two dimensional heat transfer around penetrations in multilayer insulation, final report, Wesley L. Johnson and Andrew O. Kelly, Kevin M. Jumper
Outgoing Resources
- Focus1