ASD Technical Report, Numéro 62,Partie 203Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1963 |
Table des matières
SECTION II | 26 |
CONCLUSIONS | 65 |
OXIDATION OF MOLYBDENUM SILICIDES | 73 |
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Expressions et termes fréquents
activity alloy BERYLLIDE calculated carbide chromium CM² Cockett CONSUMED X 103 degassing Dünwald energy of formation equation evolution of CO(g EXTENT OF OXIDATION FLOW RATE free energy g SURFACE g WEIGHT g/cm² groups IV-A hafnium helium inductively heated interface KINETICS OF OXIDATION linear measured METALS AND ALLOYS ML/MIN Mo3Si molybdenum silicides MoSi2 Nikolaiski number of grams ORIGINAL WEIGHT oxidation of carbon oxidation of copper OXIDATION OF MOLYBDENUM OXIDATION OF REFRACTORY OXIDATION OF WSi₂ oxidation of ZrC oxidation rate oxidation resistance oxide film oxide layer oxygen consumption oxygen partial pressures oxygen pressure parabolic rate constant plotted PO₂ pressures of 2-10 pressures of CO(g pure metal rate law rate of oxidation reaction REFRACTORY METALS rupture sample pellet silicide surface SURFACE AREA Table tantalum thermal conductivity thermal conductivity cell THERMODYNAMIC DATA Torr TOTAL O₂ CONSUMED total oxygen consumption tungsten silicides Wagner weight change WEIGHT LOSS WSi2 WSiz zirconium ZrO2