Add to ORKGThis project will be comparing the flammability of select lightweight Mg alloys for use in a simulated ISS environment. It will also be determining the factors that influence flammability of selected alloys in elevated oxygen, including the formation of an oxide layer. The significance of this work is that such alloys can reduce weight saving by up to 30%. This work is adding to knowledge base of lightweight Mg alloys for possible future applications, as no previous flammability testing of Mg alloys have been conducted at elevated oxygen concentrations
Report presents flame-propagation rates and flammability ratings of 780 specimens of commercially av...
This annual report summarizes the latest results obtained in a NASA-supported project to investigate...
The extensive use of magnesium and its alloys in aircraft has been seriously handicapped by the unce...
Magnesium alloys find their application in aviation technology for manufacturing of structural eleme...
Metallic materials exposed to oxygen-enriched atmospheres – as commonly used in the medical, aerospa...
The influence of alloying on the ignition and flammability was studied. One end of a cylindrical spe...
Materials are more flammable in oxygen rich environments than in air. When the structural elements o...
This paper reviews (i) the oxidation of Mg alloys at elevated temperatures in air; (ii) the influenc...
Evaluation tests show that magnesium-lithium alloys are lighter and more ductile than other magnesiu...
Flammability tests of guidance and navigation nonmetallic materials in pure oxygen atmospher
Lightweight, high strength magnesium alloy development with magnesium-scandium-lithium selectio
Evaluation of Additively Manufactured Metals for Use in Oxygen Systems. Oxygen Compatibility: Additi...
The results of evaluation of a wide variety of materials and configurations to determine their flamm...
Magnesium alloys with their unique physical and chemical properties are important candidates for man...
Spacecraft materials selection is based on an upward flammability test conducted in a quiescent envi...
Report presents flame-propagation rates and flammability ratings of 780 specimens of commercially av...
This annual report summarizes the latest results obtained in a NASA-supported project to investigate...
The extensive use of magnesium and its alloys in aircraft has been seriously handicapped by the unce...
Magnesium alloys find their application in aviation technology for manufacturing of structural eleme...
Metallic materials exposed to oxygen-enriched atmospheres – as commonly used in the medical, aerospa...
The influence of alloying on the ignition and flammability was studied. One end of a cylindrical spe...
Materials are more flammable in oxygen rich environments than in air. When the structural elements o...
This paper reviews (i) the oxidation of Mg alloys at elevated temperatures in air; (ii) the influenc...
Evaluation tests show that magnesium-lithium alloys are lighter and more ductile than other magnesiu...
Flammability tests of guidance and navigation nonmetallic materials in pure oxygen atmospher
Lightweight, high strength magnesium alloy development with magnesium-scandium-lithium selectio
Evaluation of Additively Manufactured Metals for Use in Oxygen Systems. Oxygen Compatibility: Additi...
The results of evaluation of a wide variety of materials and configurations to determine their flamm...
Magnesium alloys with their unique physical and chemical properties are important candidates for man...
Spacecraft materials selection is based on an upward flammability test conducted in a quiescent envi...
Report presents flame-propagation rates and flammability ratings of 780 specimens of commercially av...
This annual report summarizes the latest results obtained in a NASA-supported project to investigate...
The extensive use of magnesium and its alloys in aircraft has been seriously handicapped by the unce...