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Particle Morphology and Elemental Composition of Smoke Generated by Overheating Common Spacecraft MaterialsFire safety in the indoor spacecraft environment is concerned with a unique set of fuels which are designed to not combust. Unlike terrestrial flaming fires, which often can consume an abundance of wood, paper and cloth, spacecraft fires are expected to be generated from overheating electronics consisting of flame resistant materials. Therefore, NASA prioritizes fire characterization research for these fuels undergoing oxidative pyrolysis in order to improve spacecraft fire detector design. A thermal precipitator designed and built for spacecraft fire safety test campaigns at the NASA White Sands Test Facility (WSTF) successfully collected an abundance of smoke particles from oxidative pyrolysis. A thorough microscopic characterization has been performed for ten types of smoke from common spacecraft materials or mixed materials heated at multiple temperatures using the following techniques: SEM, TEM, high resolution TEM, high resolution STEM and EDS. Resulting smoke particle morphologies and elemental compositions have been observed which are consistent with known thermal decomposition mechanisms in the literature and chemical make-up of the spacecraft fuels. Some conclusions about particle formation mechanisms are explored based on images of the microstructure of Teflon smoke particles and tar ball-like particles from Nomex fabric smoke.
Document ID
20160000940
Acquisition Source
Glenn Research Center
Document Type
Technical Memorandum (TM)
Authors
Meyer, Marit E.
(NASA Glenn Research Center Cleveland, OH United States)
Date Acquired
January 19, 2016
Publication Date
December 1, 2015
Subject Category
Space Transportation And Safety
Report/Patent Number
GRC-E-DAA-TN23042
E-19087
NASA/TM-2015-218891
Funding Number(s)
WBS: WBS 067463.01.99.99.99.99.22
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
Keywords
Smoke
Thermophoresis
Aerosol
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