Add to ORKGGrain size and annealing temperature effects on creep properties of dispersion strengthened tantalum base alloy
Creep data obtained at high temperatures for molybdenum, niobium, tantalum, and tungsten refractory ...
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Low cycle fatigue tests have been performed on the tantalum base alloys T-111 and ASTAR 811C with sy...
Creep properties, brittleness, hardness, and microstructure of dispersion strengthed tantalum base a...
Dispersion strengthened tantalum base alloys - continued development in test progra
Dispersion strengthened tantalum base alloys - development with evaluation of oxygen contaminated an...
Dispersion strengthened tantalum base alloys for use in advanced space power system
Phase identification and morphology studies of dispersion hardened tantalum base alloys for advanced...
Dispersion strengthened tantalum base alloys for use in advanced spacecraft power systems - metallu...
Mechanical properties determined for precipitation hardened tantalum base alloy /ASTAR-811C/ for pot...
Five experimental tantalum alloy compositions containing 13-18% W+Re+Hf solid solution solute additi...
Creep tests of molybdenum base TZC, TZM alloys tantalum base T-111 and Astar 811C in vacuum environm...
Metallurgical condition was shown to have a significant effect on the creep properties of ASTAR-811C...
Three experimental tantalum alloy compositions containing 14-16% W, 1% Re, 0.7% Hf, 0.025% C or 0.01...
Creep tests of arc-cast and vapor deposited tungsten, molybdenum alloys, niobium, and tantalum base ...
Creep data obtained at high temperatures for molybdenum, niobium, tantalum, and tungsten refractory ...
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Low cycle fatigue tests have been performed on the tantalum base alloys T-111 and ASTAR 811C with sy...
Creep properties, brittleness, hardness, and microstructure of dispersion strengthed tantalum base a...
Dispersion strengthened tantalum base alloys - continued development in test progra
Dispersion strengthened tantalum base alloys - development with evaluation of oxygen contaminated an...
Dispersion strengthened tantalum base alloys for use in advanced space power system
Phase identification and morphology studies of dispersion hardened tantalum base alloys for advanced...
Dispersion strengthened tantalum base alloys for use in advanced spacecraft power systems - metallu...
Mechanical properties determined for precipitation hardened tantalum base alloy /ASTAR-811C/ for pot...
Five experimental tantalum alloy compositions containing 13-18% W+Re+Hf solid solution solute additi...
Creep tests of molybdenum base TZC, TZM alloys tantalum base T-111 and Astar 811C in vacuum environm...
Metallurgical condition was shown to have a significant effect on the creep properties of ASTAR-811C...
Three experimental tantalum alloy compositions containing 14-16% W, 1% Re, 0.7% Hf, 0.025% C or 0.01...
Creep tests of arc-cast and vapor deposited tungsten, molybdenum alloys, niobium, and tantalum base ...
Creep data obtained at high temperatures for molybdenum, niobium, tantalum, and tungsten refractory ...
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Low cycle fatigue tests have been performed on the tantalum base alloys T-111 and ASTAR 811C with sy...