High-temperature Oxidation-resistant Coatings: Coatings for Protection from Oxidation of Superalloys, Refractory Metals, and Graphite |
Contents
General Conclusions and Recommendations | 1 |
State of the Art of CoatingSubstrate Systems | 60 |
Coating Systems 60 Coating Techniques 60 Existing Coatings for Superalloys | 66 |
Copyright | |
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aerospace AFML aircraft aluminide coatings aluminum applications behavior blades and vanes capability ceramic chemical vapor deposition Chromalloy chromium alloys clad coated refractory metals coating process coating systems coating thickness columbium alloys complex components composition cooled corrosion Cr-Ti-Si coating cracks cycle defects diam disilicide ductility electrophoresis Electrophoretic deposition environment evaluation failure furnace fused-salt gas-turbine engines hardware heat Hf-Ta hypersonic hypersonic vehicles improved interdiffusion interface intermetallic iridium laboratory layer limited materials mechanical molybdenum MoSi₂ NASA nickel nickel-base noble metal nondestructive testing nozzle operation oxidation oxidation resistance oxidation-resistant oxygen pack pack-cementation performance phase pressure problem produced propulsion protective coatings re-entry reaction refractory metals regeneratively cooled reliability Report rocket silicide coatings silicon SiO2 slurry specimen spray structure substrate superalloys surface Sylvania Electric Products tantalum tantalum alloys techniques temperature thermal tion tungsten turbine ture uncoated Union Carbide vacuum vapor deposition