Add to ORKGMetallurgical condition was shown to have a significant effect on the creep properties of ASTAR-811C (Ta-8W-1Re-0.7Hf-0.025C) sheet. Cold worked material exhibited creep rates 30 times higher than solution annealed material and 10 times greater than for recrystallized material. Both grain size and the carbide morphology changes as the final annealing temperature was raised from 3000 F to 3600 F. However, the lowest creep rates were achieved for material which retained the high temperature form of the Ta2C precipitate. Samples with GTA weldments had essentially identical properties as recrystallized base metal. Cooling rates from 3600 F of 5, 50, and 800 F deg/min. had little effect on the 2000 and 2400 F creep behavior of ASTAR-811C
Ultrahigh vacuum creep tests were conducted on tantalum, tungsten, and molybdenum alloys to develop ...
Four separate studies of various aspects of the vacuum creep behavior of two tantalum alloys (T-111 ...
The high temperature deformation and fracture behavior of T-111 and ASTAR-811C were studied over the...
Mechanical properties determined for precipitation hardened tantalum base alloy /ASTAR-811C/ for pot...
Two tantalum base alloys, Ta-12W-1.0Re-0.7Hf-0.025C(ASTAR-1211C) and Ta-15W-1.0Re-0.7Hf-0.025C(ASTAR...
Three experimental tantalum alloy compositions containing 14-16% W, 1% Re, 0.7% Hf, 0.025% C or 0.01...
Dispersion strengthened tantalum base alloys for use in advanced space power system
Grain size and annealing temperature effects on creep properties of dispersion strengthened tantalum...
Dispersion strengthened tantalum base alloys - continued development in test progra
Creep properties, brittleness, hardness, and microstructure of dispersion strengthed tantalum base a...
Refractory alloy creep test data for molybdenum base alloy TZM, pure tantalum, and tantalum base all...
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Five experimental tantalum alloy compositions containing 13-18% W+Re+Hf solid solution solute additi...
Ultrahigh vacuum creep tests were performed on tungsten, molybdenum, and tantalum alloys to develop ...
Low cycle fatigue tests have been performed on the tantalum base alloys T-111 and ASTAR 811C with sy...
Ultrahigh vacuum creep tests were conducted on tantalum, tungsten, and molybdenum alloys to develop ...
Four separate studies of various aspects of the vacuum creep behavior of two tantalum alloys (T-111 ...
The high temperature deformation and fracture behavior of T-111 and ASTAR-811C were studied over the...
Mechanical properties determined for precipitation hardened tantalum base alloy /ASTAR-811C/ for pot...
Two tantalum base alloys, Ta-12W-1.0Re-0.7Hf-0.025C(ASTAR-1211C) and Ta-15W-1.0Re-0.7Hf-0.025C(ASTAR...
Three experimental tantalum alloy compositions containing 14-16% W, 1% Re, 0.7% Hf, 0.025% C or 0.01...
Dispersion strengthened tantalum base alloys for use in advanced space power system
Grain size and annealing temperature effects on creep properties of dispersion strengthened tantalum...
Dispersion strengthened tantalum base alloys - continued development in test progra
Creep properties, brittleness, hardness, and microstructure of dispersion strengthed tantalum base a...
Refractory alloy creep test data for molybdenum base alloy TZM, pure tantalum, and tantalum base all...
Creep tests were conducted on two tantalum alloys (ASTAR 811C and T-111 alloy), on a molybdenum allo...
Five experimental tantalum alloy compositions containing 13-18% W+Re+Hf solid solution solute additi...
Ultrahigh vacuum creep tests were performed on tungsten, molybdenum, and tantalum alloys to develop ...
Low cycle fatigue tests have been performed on the tantalum base alloys T-111 and ASTAR 811C with sy...
Ultrahigh vacuum creep tests were conducted on tantalum, tungsten, and molybdenum alloys to develop ...
Four separate studies of various aspects of the vacuum creep behavior of two tantalum alloys (T-111 ...
The high temperature deformation and fracture behavior of T-111 and ASTAR-811C were studied over the...