Add to ORKGThe analyses and results of a test program to establish the effects of long term (10 years or more) contact of materials with earth-storable propellants for the purpose of designing chemical propulsion system components which are used for current as well as future planetary spacecraft are described. The period from the publication of JPL TM 33-779 IN 1976 through the testing accomplished in 1981 is covered. The following propellants are reported herein: hydrazine, monomethylhydrazine and nitrogen tetroxide. Materials included the following: aluminum alloys, corrosion resistant steels and a titanium alloy. The results of the testing of more than 80 specimens are included. Material ratings relative to the ten year milepost were assigned. Some...
Compatibility data for aluminum alloy 2219-T87 and titanium alloy Ti-6Al-4V were obtained while thes...
Mechanical stress effects on permeability of engineering materials to cryogenic and storable launch ...
Improve method for Apollo propellant system decontamination and propellant tank dryin
The effects of long-term (up to 10 years) contact of inert materials with earth-storable propellants...
The search for advanced measurement techniques for determining long term compatibility of materials ...
Space storable propellant acquisition, pressurization, and tankage propulsion subsystems for Mars an...
Hot firing tests with FLOX/methane propellants for evaluating pyrolytic refractory composite materia...
Results of a program conducted to evaluate materials for construction of a space shuttle hydrazine m...
Compatibility measurements were made for aluminum 2219-T87 alloy and titanium 6Al-4V alloy in the pr...
The NASA Johnson Space Center White Sands Test Facility (WSTF) has performed testing of hazardous an...
Current planning for the Space Exploration Initiative (SEI) recognizes the need for extraterrestrial...
Space storable surface tension propellant acquisition system for Mars and Grand Tour mission
High density, water based slurries for hydrostatic testing of stage propellant tank
The application of existing and new technology to the problem of determining the long-term performan...
Effects of radiation on stability and compatibility of hydrazine and hydrazine-24 percent hydrazine ...
Compatibility data for aluminum alloy 2219-T87 and titanium alloy Ti-6Al-4V were obtained while thes...
Mechanical stress effects on permeability of engineering materials to cryogenic and storable launch ...
Improve method for Apollo propellant system decontamination and propellant tank dryin
The effects of long-term (up to 10 years) contact of inert materials with earth-storable propellants...
The search for advanced measurement techniques for determining long term compatibility of materials ...
Space storable propellant acquisition, pressurization, and tankage propulsion subsystems for Mars an...
Hot firing tests with FLOX/methane propellants for evaluating pyrolytic refractory composite materia...
Results of a program conducted to evaluate materials for construction of a space shuttle hydrazine m...
Compatibility measurements were made for aluminum 2219-T87 alloy and titanium 6Al-4V alloy in the pr...
The NASA Johnson Space Center White Sands Test Facility (WSTF) has performed testing of hazardous an...
Current planning for the Space Exploration Initiative (SEI) recognizes the need for extraterrestrial...
Space storable surface tension propellant acquisition system for Mars and Grand Tour mission
High density, water based slurries for hydrostatic testing of stage propellant tank
The application of existing and new technology to the problem of determining the long-term performan...
Effects of radiation on stability and compatibility of hydrazine and hydrazine-24 percent hydrazine ...
Compatibility data for aluminum alloy 2219-T87 and titanium alloy Ti-6Al-4V were obtained while thes...
Mechanical stress effects on permeability of engineering materials to cryogenic and storable launch ...
Improve method for Apollo propellant system decontamination and propellant tank dryin