A methodology to select a wire insulation for use in habitable spacecraft.
T Paulos, G Apostolakis
Index: Risk Anal. 18(4) , 471-510, (1998)
Full Text: HTML
Abstract
This paper investigates electrical overheating events aboard a habitable spacecraft. The wire insulation involved in these failures plays a major role in the entire event scenario from threat development to detection and damage assessment. Ideally, if models of wire overheating events in microgravity existed, the various wire insulations under consideration could be quantitatively compared. However, these models do not exist. In this paper, a methodology is developed that can be used to select a wire insulation that is best suited for use in a habitable spacecraft. The results of this study show that, based upon the Analytic Hierarchy Process and simplifying assumptions, the criteria selected, and data used in the analysis, Tefzel is better than Teflon for use in a habitable spacecraft.
Related Compounds
| Structure | Name/CAS No. | Molecular Formula | Articles |
|---|---|---|---|
 |
Poly(ethylene-co-tetrafluoroethylene)
CAS:25038-71-5 |
(CH2CH2)x(CF2CF2)y |
|
Chemical reactivity of the functional groups of insulin. Con...
1984-01-01 [Biochem. J. 217(1) , 135-43, (1984)] |
|
Endothelial cell seeding of polymeric vascular grafts.
2004-05-01 [Front. Biosci. 9 , 1412-21, (2004)] |
|
Kinetic study of release of silicon compounds from polysilox...
1995-01-01 [J. Biomed. Mater. Res. 29(1) , 59-63, (1995)] |
|
Crocheted ETFE-reactor for on-line post-column photoderivati...
1997-12-01 [J. Pharm. Biomed. Anal. 16(4) , 553-9, (1997)] |
|
Thermoplastic composites for veneering posterior teeth-a fea...
2002-09-01 [Dent. Mater. 18(6) , 479-85, (2002)] |