The Experts below are selected from a list of 312 Experts worldwide ranked by ideXlab platform
H A J Oonk - One of the best experts on this subject based on the ideXlab platform.
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the system carbon tetrachloride neopentane a complete Thermodynamic Analysis
IEEE Journal of Solid-state Circuits, 2000Co-Authors: J Salud, D O Lopez, Ll J Tamarit, Maria Barrio, M H G Jacobs, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
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The System Carbon-Tetrachloride+Neopentane: A Complete Thermodynamic Analysis
Journal of Solid State Chemistry, 2000Co-Authors: J Salud, Maria Barrio, M H G Jacobs, David López, J. Ll. Tamarit, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
J Salud - One of the best experts on this subject based on the ideXlab platform.
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the system carbon tetrachloride neopentane a complete Thermodynamic Analysis
IEEE Journal of Solid-state Circuits, 2000Co-Authors: J Salud, D O Lopez, Ll J Tamarit, Maria Barrio, M H G Jacobs, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
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The System Carbon-Tetrachloride+Neopentane: A Complete Thermodynamic Analysis
Journal of Solid State Chemistry, 2000Co-Authors: J Salud, Maria Barrio, M H G Jacobs, David López, J. Ll. Tamarit, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
S. K. Lilov - One of the best experts on this subject based on the ideXlab platform.
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Thermodynamic Analysis of the Gas Phase at the Dissociative Evaporation of Silicon Carbide
Crystal Research and Technology, 1993Co-Authors: S. K. LilovAbstract:The Thermodynamic Analysis of the gas phase at the dissociative evaporation of SiC in the temperature interval (1500–3150) K is carried out. On the basis of the obtained results of the Thermodynamic Analysis the composition of the equilibrium gas phase above silicon carbide and the “extents of development” of reactions of silicon carbide dissociation and evaporation are determined. The Thermodynamic Analysis shows that the composition and the stoichiometry of the gas phase above silicon carbide strongly depend on the temperature, and this dependence it is necessary to be taken into account in the Analysis of the growth processes of silicon carbide monocrystals and epitaxial layers. [Russian Text Ignored].
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Thermodynamic Analysis of the gas phase at the dissociative evaporation of silicon carbide
Computational Materials Science, 1993Co-Authors: S. K. LilovAbstract:Abstract The Thermodynamic Analysis of the gas phase at the dissociative evaporation of SiC in the temperature interval (1500–3150) K is carried out. On the basis of the obtained results of the Thermodynamic Analysis the composition of the equilibrium gas phase above silicon carbide and the “extents of development” of reactions of silicon carbide dissociation and evaporation are determined. The carried out Thermodynamic Analysis has shown that the composition and the stoichiometry of the gas phase above silicon carbide depend very much on the temperature, and it is necessary to take this dependence into account in the Analysis of the growth processes of silicon carbide monocrystals and epitaxial layers.
M H G Jacobs - One of the best experts on this subject based on the ideXlab platform.
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the system carbon tetrachloride neopentane a complete Thermodynamic Analysis
IEEE Journal of Solid-state Circuits, 2000Co-Authors: J Salud, D O Lopez, Ll J Tamarit, Maria Barrio, M H G Jacobs, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
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The System Carbon-Tetrachloride+Neopentane: A Complete Thermodynamic Analysis
Journal of Solid State Chemistry, 2000Co-Authors: J Salud, Maria Barrio, M H G Jacobs, David López, J. Ll. Tamarit, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
Maria Barrio - One of the best experts on this subject based on the ideXlab platform.
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the system carbon tetrachloride neopentane a complete Thermodynamic Analysis
IEEE Journal of Solid-state Circuits, 2000Co-Authors: J Salud, D O Lopez, Ll J Tamarit, Maria Barrio, M H G Jacobs, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
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The System Carbon-Tetrachloride+Neopentane: A Complete Thermodynamic Analysis
Journal of Solid State Chemistry, 2000Co-Authors: J Salud, Maria Barrio, M H G Jacobs, David López, J. Ll. Tamarit, H A J OonkAbstract:Abstract An experimental reinterpretation together with a Thermodynamic Analysis of the two-component system (CCl 4 )+(C(CH 3 ) 4 ) has been performed. The 35-year-old specific heat diagrams obtained by adiabatic calorimetry have been revised in order to remove the inconsistencies of the tentative experimental phase diagram. The fact that the two components of the system do not have the same ODIC form was ignored 30 years ago and, at present, it has been considered. From a Thermodynamic point of view the two-component system is a very nice example of crossed isodimorphism: two ODIC+liquid loops crossing each other give rise to a three-phase equilibrium. The Thermodynamic information of the excess magnitudes is wide enough to perform a complete and realistic Thermodynamic Analysis. Likewise, the excess Thermodynamic magnitudes in the ODIC states have been well explained by means of the quasi-subregular solution model including a compensation law.
