Vaporization of Compounds and Alloys at High Temperatures: On The Existance of Gaseous Sulphides Of The Transition Elements
Report Number: WADD TR 60-782 Part IV
Author(s): Colin, R., Jeunehomme, M., Goldfinger, P.
Corporate Author(s): Universite Libre de Bruxelles, Brussels, Belgium
Laboratory: Directorate of Materials and Processes
Date of Publication: 1962-05
Pages: 10
Contract: AF 61(052)-225
DoD Project: 7350
DoD Task: 735001
Identifier: AD0278829
Abstract:
Thermodynamic considerations permit us to predict the mode of vaporization of transition element sulphides. MnS is the only clear case where the gaseous sulphide molecule has an appreciable concentration in the saturated vapor. This is confirmed by a mass spectrometric investigation which gave the measurement dissociation energy (MnS) = 65 ± 5 Kcal/mole.
Provenance: IIT
Author(s): Colin, R., Jeunehomme, M., Goldfinger, P.
Corporate Author(s): Universite Libre de Bruxelles, Brussels, Belgium
Laboratory: Directorate of Materials and Processes
Date of Publication: 1962-05
Pages: 10
Contract: AF 61(052)-225
DoD Project: 7350
DoD Task: 735001
Identifier: AD0278829
Abstract:
Thermodynamic considerations permit us to predict the mode of vaporization of transition element sulphides. MnS is the only clear case where the gaseous sulphide molecule has an appreciable concentration in the saturated vapor. This is confirmed by a mass spectrometric investigation which gave the measurement dissociation energy (MnS) = 65 ± 5 Kcal/mole.
Provenance: IIT