Refractory-metal-fiber-nickel-base-alloy composites for use at high temperatures
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100-hour rupture 100-hour stress-rupture strength 3D wire 70-volume-percent fiber alloy 3 composites alloy wire aluminum additions binder material cast nickel alloys cause rupture centipoises chromium Compatibility Studies composite material composite strength composites containing composites tested depth of penetration depth of reaction diam diameter 218CS wire diameter fibers diameter wires Electron Microprobe fiber and matrix fiber composites fiber content fully densified high-temperature-densification technique hot pressed investigation large-diameter fibers Longitudinal section matrix composites matrix materials metal powder microstructure mils molybdenum NASA NF wire nickel-base alloys optimum wire percent reacted fiber reaction depth refractory refractory metal refractory-metal rhenium rupture in 100 rupture properties shown in figure sintered slip cast specific strength stress to cause Stress to density stress-rupture properties superior stress-rupture strength obtained Stronger composites tested at 2000 thoria titanium and aluminum tungsten wires TZM wire Vacuum cast viscosity Weeton wire composite wire in alloy wire materials