High Temperature Vapors: Science and Technology |
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Page 4
1 Representative Examples of High Temperature Speciesin the Presence of a
Condensed Phase Vapor species Condensed phase Vapor species Condensed
phase Li20 ( WO3 ) n , n = 1 - 5 Ni + 02 Cm , n = 1 - 5 CeC2 , CeC , Al + N2 Si2N
...
1 Representative Examples of High Temperature Speciesin the Presence of a
Condensed Phase Vapor species Condensed phase Vapor species Condensed
phase Li20 ( WO3 ) n , n = 1 - 5 Ni + 02 Cm , n = 1 - 5 CeC2 , CeC , Al + N2 Si2N
...
Page 95
With the first process type a high temperature vapor phase is usually required to
generate the reduced valence species necessary to disproportionation reactions
. High temperatures may also be involved in physical vapor deposition , both in ...
With the first process type a high temperature vapor phase is usually required to
generate the reduced valence species necessary to disproportionation reactions
. High temperatures may also be involved in physical vapor deposition , both in ...
Page 146
E . Dissociation of Complexes by Condensation For practical utility , the
advantage gained by the generation of a stable vapor phase complex may be
offset by the difficulty of compound recovery from the condensate , as determined
by the ...
E . Dissociation of Complexes by Condensation For practical utility , the
advantage gained by the generation of a stable vapor phase complex may be
offset by the difficulty of compound recovery from the condensate , as determined
by the ...
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Contents
GasSolid Reactions with Vapor Products | 37 |
Chemical Vapor Transport and Deposition | 91 |
VaporPhase Aspects of Corrosion at High Temperature | 212 |
Copyright | |
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addition apparent application atmosphere atoms basic calculated Chapter chemical chemistry chloride combustion complex components composition concentration considered constant containing controlled corrosion dependence deposition determined diffusion discussion dissociation effect electron elements emission energy equilibrium et al evidence example experimental factor flame flow formation fuel gases given greater H-atom halide halogen heat Hence high temperature higher hydroxide important increase indicated inhibition interaction interest involving ions kcal mol-1 kinetic known lead less limited mass materials measurements mechanism metal molecular observed obtained occur oxide partial particularly phase plasma possible practical present pressure problems production radical range reaction reaction zone reactor recent reduced region relatively shown similar solid species stability studies suggested surface Table techniques thermal thermodynamic tion transport usually values vapor vapor-phase various volatile