Add to ORKGMeasurements of impact-ignition sensitivity and studies of the relative reactivity of t-butoxy and t-butyl peroxy radicals toward a variety of organic compounds reveal improved methods of selection of materials for safe use in a liquid oxygen environment
The use of oxygen for aerospace applications is bonded to the history of American rocketry. The firs...
Materials are more flammable in oxygen rich environments than in air. When the structural elements o...
Solvents used to clean oxygen system components must be assessed for oxygen compatibility, as incomp...
Impact sensitivity and ignition mechanism of organic compounds in liquid oxygen correlated with chem...
Report presents flame-propagation rates and flammability ratings of 780 specimens of commercially av...
The work on ignition and combustion research in oxygen systems under the sponsorship of NASA's Aeros...
Test program evaluates thermal and electric ignition mechanisms in selected nonmetallic materials fo...
Advances in the design of the liquid oxygen, liquid hydrogen engines for the Space Transportation Sy...
The sensitivity of materials in contact with gaseous oxygen (GOX) or liquid oxygen (LOX) was examine...
Materials intended for use in aerospace oxygen systems are commonly screened for oxygen compatibilit...
The identification and characterization of oxygen-rich compatible materials enables full-flow, stage...
Theoretical analysis of ignition mechanisms and quantitative analysis of vapor phase reaction produc...
Materials used in oxygen systems and allowable oxygen environments are specified for each material. ...
The use of oxygen for aerospace applications is bonded to the history of American rocketry. The firs...
The effect of contaminants on the mechanical impact sensitivity of Teflon, stainless steel, and alum...
The use of oxygen for aerospace applications is bonded to the history of American rocketry. The firs...
Materials are more flammable in oxygen rich environments than in air. When the structural elements o...
Solvents used to clean oxygen system components must be assessed for oxygen compatibility, as incomp...
Impact sensitivity and ignition mechanism of organic compounds in liquid oxygen correlated with chem...
Report presents flame-propagation rates and flammability ratings of 780 specimens of commercially av...
The work on ignition and combustion research in oxygen systems under the sponsorship of NASA's Aeros...
Test program evaluates thermal and electric ignition mechanisms in selected nonmetallic materials fo...
Advances in the design of the liquid oxygen, liquid hydrogen engines for the Space Transportation Sy...
The sensitivity of materials in contact with gaseous oxygen (GOX) or liquid oxygen (LOX) was examine...
Materials intended for use in aerospace oxygen systems are commonly screened for oxygen compatibilit...
The identification and characterization of oxygen-rich compatible materials enables full-flow, stage...
Theoretical analysis of ignition mechanisms and quantitative analysis of vapor phase reaction produc...
Materials used in oxygen systems and allowable oxygen environments are specified for each material. ...
The use of oxygen for aerospace applications is bonded to the history of American rocketry. The firs...
The effect of contaminants on the mechanical impact sensitivity of Teflon, stainless steel, and alum...
The use of oxygen for aerospace applications is bonded to the history of American rocketry. The firs...
Materials are more flammable in oxygen rich environments than in air. When the structural elements o...
Solvents used to clean oxygen system components must be assessed for oxygen compatibility, as incomp...