Add to ORKGUltrahigh vacuum creep tests were conducted on tantalum, tungsten, and molybdenum alloys to develop creep data and to evaluate the influence of liquid lithium exposure on the creep behavior of the tantalum alloy T-111. Test conditions were generally selected to provide 1% creep in 1000 to 10,000 hours, with test temperatures ranging from 1600 to 2912 F (1144 to 1873 K). Tests on T-111 specimens exposed to vacuum and to liquid lithium for various times and temperatures showed large reductions in creep strength for exposures in the 1800 to 1900 F (1255 to 1310 K) range. Tests on the ASTAR 811c showed a significant influence of grain size on the creep strength of this material, with larger grain size specimens being significantly stronger abov...
Creep resistance of refractory alloys at elevated temperatures under ultrahigh vacuum condition
Creep testing data and machine reliability for high-temperature long-time tests on niobium, tungsten...
Mechanical behavior of tantalum T-111 alloy at high temperatures and ultrahigh vacuu
Ultrahigh vacuum creep tests were performed on tungsten, molybdenum, and tantalum alloys to develop ...
Four separate studies of various aspects of the vacuum creep behavior of two tantalum alloys (T-111 ...
Refractory alloy creep test data for molybdenum base alloy TZM, pure tantalum, and tantalum base all...
Creep tests of molybdenum base TZC, TZM alloys tantalum base T-111 and Astar 811C in vacuum environm...
Creep analysis of refractory metal alloys at high temperatures under ultrahigh vacuum condition
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Creep tests of arc-cast and vapor deposited tungsten, molybdenum alloys, niobium, and tantalum base ...
Creep test data on refractory metal alloys for use in spacecraft power supply system
Creep data obtained at high temperatures for molybdenum, niobium, tantalum, and tungsten refractory ...
Ultrahigh vacuum creep data for tungsten, tungsten-25 per cent rhenium, TZM and TZC MOLYBDENUM alloy...
Molybdenum base alloys and tantalum base alloys creep tested in vacuum environment at elevated tempe...
The effect of long-term, elevated-temperature vacuum and lithium exposures on the mechanical propert...
Creep resistance of refractory alloys at elevated temperatures under ultrahigh vacuum condition
Creep testing data and machine reliability for high-temperature long-time tests on niobium, tungsten...
Mechanical behavior of tantalum T-111 alloy at high temperatures and ultrahigh vacuu
Ultrahigh vacuum creep tests were performed on tungsten, molybdenum, and tantalum alloys to develop ...
Four separate studies of various aspects of the vacuum creep behavior of two tantalum alloys (T-111 ...
Refractory alloy creep test data for molybdenum base alloy TZM, pure tantalum, and tantalum base all...
Creep tests of molybdenum base TZC, TZM alloys tantalum base T-111 and Astar 811C in vacuum environm...
Creep analysis of refractory metal alloys at high temperatures under ultrahigh vacuum condition
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Creep tests of arc-cast and vapor deposited tungsten, molybdenum alloys, niobium, and tantalum base ...
Creep test data on refractory metal alloys for use in spacecraft power supply system
Creep data obtained at high temperatures for molybdenum, niobium, tantalum, and tungsten refractory ...
Ultrahigh vacuum creep data for tungsten, tungsten-25 per cent rhenium, TZM and TZC MOLYBDENUM alloy...
Molybdenum base alloys and tantalum base alloys creep tested in vacuum environment at elevated tempe...
The effect of long-term, elevated-temperature vacuum and lithium exposures on the mechanical propert...
Creep resistance of refractory alloys at elevated temperatures under ultrahigh vacuum condition
Creep testing data and machine reliability for high-temperature long-time tests on niobium, tungsten...
Mechanical behavior of tantalum T-111 alloy at high temperatures and ultrahigh vacuu
