Add to ORKGNASA Centers continue to collaborate to characterize the chemical species and smoke particles generated by the combustion of current space-rated non-metallic materials including fluoropolymers. This paper describes the results of tests conducted February through September 2012 to identify optimal chemical markers both for augmenting particle-based fire detection methods and for monitoring the post-fire cleanup phase in human spacecraft. These studies follow up on testing conducted in August 2010 and reported at ICES 2011. The tests were conducted at the NASA White Sands Test Facility in a custom glove box designed for burning fractional gram quantities of materials under varying heating profiles. The 623 L chamber was heavily instrumented t...
Current combustion products monitoring on the International Space Station (ISS) uses a handheld devi...
The purpose of this project was to research characteristics of a Lithium-ion battery fire to determi...
Device simulates incipient fire conditions in closely-controlled adjustable manner, to give predeter...
NASA Centers continue to collaborate to characterize the chemical species and smoke particles genera...
Tests were conducted on the International Space Station to evaluate the smoke particulate size from ...
Fire safety in the indoor spacecraft environment is concerned with a unique set of fuels which are d...
The Toxicology Laboratory at JSC and Exidyne Instrumentation Technologies (EIT) have developed a pro...
The Characterization of Smoke Particulate for Spacecraft Fire Detection, or Smoke, microgravity expe...
The following projects were completed as part of the effort to develop and test economically feasibl...
From an economic standpoint, soot is one of the most important combustion intermediates and products...
The overall objective of this project is to measure the fire signatures of typical spacecraft materi...
Characterization of the smoke from pyrolysis of common spacecraft materials provides insight for the...
Fire tests were conducted in a 737 airplane fuselage at NASA-JSC to characterize jet fuel fires in o...
A range of microfabricated chemical sensors are being developed to meet the needs of fire detection ...
The "Smoke" experiment is a flight definition investigation that seeks to increase our understanding...
Current combustion products monitoring on the International Space Station (ISS) uses a handheld devi...
The purpose of this project was to research characteristics of a Lithium-ion battery fire to determi...
Device simulates incipient fire conditions in closely-controlled adjustable manner, to give predeter...
NASA Centers continue to collaborate to characterize the chemical species and smoke particles genera...
Tests were conducted on the International Space Station to evaluate the smoke particulate size from ...
Fire safety in the indoor spacecraft environment is concerned with a unique set of fuels which are d...
The Toxicology Laboratory at JSC and Exidyne Instrumentation Technologies (EIT) have developed a pro...
The Characterization of Smoke Particulate for Spacecraft Fire Detection, or Smoke, microgravity expe...
The following projects were completed as part of the effort to develop and test economically feasibl...
From an economic standpoint, soot is one of the most important combustion intermediates and products...
The overall objective of this project is to measure the fire signatures of typical spacecraft materi...
Characterization of the smoke from pyrolysis of common spacecraft materials provides insight for the...
Fire tests were conducted in a 737 airplane fuselage at NASA-JSC to characterize jet fuel fires in o...
A range of microfabricated chemical sensors are being developed to meet the needs of fire detection ...
The "Smoke" experiment is a flight definition investigation that seeks to increase our understanding...
Current combustion products monitoring on the International Space Station (ISS) uses a handheld devi...
The purpose of this project was to research characteristics of a Lithium-ion battery fire to determi...
Device simulates incipient fire conditions in closely-controlled adjustable manner, to give predeter...