High Temperature Vapors: Science and Technology |
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Page 48
... Oxidation Reactions A. General Considerations Oxide volatility is particularly important in the gas - solid corrosion of W , Mo , and the platinum metals ( see Chapter 4 ) . Reviews concerning the fundamentals of the oxidation and ...
... Oxidation Reactions A. General Considerations Oxide volatility is particularly important in the gas - solid corrosion of W , Mo , and the platinum metals ( see Chapter 4 ) . Reviews concerning the fundamentals of the oxidation and ...
Page 214
... oxidation rate is inversely proportional to the oxide thickness and the oxidation has a parabolic time dependence . Accord- ing to the important Wagner theory , both the chemical and electrical potentials of the oxide are contributing ...
... oxidation rate is inversely proportional to the oxide thickness and the oxidation has a parabolic time dependence . Accord- ing to the important Wagner theory , both the chemical and electrical potentials of the oxide are contributing ...
Page 223
... oxide vapor species of relatively low stability . At about 600 ° C , Ir forms a stable oxide film in air which vaporizes at temperatures of about 1000 ° C . The vapor species are believed to be IrO2 , IrO3 , and Ir2O2 , depending on the ...
... oxide vapor species of relatively low stability . At about 600 ° C , Ir forms a stable oxide film in air which vaporizes at temperatures of about 1000 ° C . The vapor species are believed to be IrO2 , IrO3 , and Ir2O2 , depending on the ...
Contents
Appendix Major Literature Sources for High Temperature Chemistry | 36 |
Synergistic Reactions | 58 |
Appendix Some Additional Recent Literature on High Temperature GasSolid | 89 |
Copyright | |
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addition apparent application atmosphere atoms basic calculated Chapter Chem chemical chemistry chloride combustion complex components composition concentration considered constant containing corrosion dependence deposition determined diffusion discussion dissociation effect electron elements emission energy equilibrium et al evidence example experimental factor flame formation fuel gases given greater H-atom H₂O halide halogen heat Hence high temperature hydroxide important increase indicated inhibition interaction interest involving ions kcal mol-¹ kinetic known lead less limited mass materials mechanism metal molecular observed obtained occur oxide partial particularly phase Phys plasma possible practical presence present pressure problems production radical reaction reaction zone reactor recent reduced region relatively rocket shown similar solid species stability studies suggested surface Table techniques thermal thermodynamic tion transport usually values vapor vapor-phase various volatile York