Thermal Analysis and Thermodynamic Properties of Solids
Autor Jaroslav Sestaken Limba Engleză Paperback – 12 aug 2021
Part 1 provides a detailed introduction and guide to theoretical aspects of thermal analysis and the related impact of thermodynamics. Key terminology and concepts, the fundamentals of thermophysical examinations, thermostatics, equilibrium background, thermotics, reaction kinetics and models, thermokinetics and the exploitation of fractals are all discussed. Part 2 then goes on to discuss practical applications of this theoretical information to topics such as crystallization kinetics and glass states, thermodynamics in superconductor models, and climate change.
- Includes fully updated as well as new chapters on kinetic phase diagrams, thermokinetics in DTA experiments, and crystallization kinetics
- Discusses the influence of key derivatives such as thermostatics, thermodynamics, thermotics, and thermokinetics
- Helps readers understand and describe reaction kinetics in solids, both in terms of simplified descriptions of the reaction mechanism models and averaged descriptions using fractals
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Specificații
ISBN-13: 9780323855372
ISBN-10: 0323855377
Pagini: 644
Ilustrații: 200 illustrations (120 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.85 kg
Ediția:2
Editura: ELSEVIER SCIENCE
ISBN-10: 0323855377
Pagini: 644
Ilustrații: 200 illustrations (120 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.85 kg
Ediția:2
Editura: ELSEVIER SCIENCE
Public țintă
Primary: Intended for a wide range of readers including students, postgraduates and researchers in physical chemistry, materials chemistry, physics, materials science and chemical engineering, and researchers and other users and developers of thermo analysis instrumentsSecondary: All those whose work is impacted and enhanced by thermo analysis.
Cuprins
Part 1: Introduction and Fundamentals
1. Thermophysical examinations, experimental set-ups, sample and temperature control
2. Understanding of temperature, heat, gradients and related thermodynamics
3. Phenomenological approach to the caloric theory of heat: An alternative thermodynamics
4. Thermostatics as textbook thermodynamics
5. Equilibrium background and its importance for temperature and particle size
6. Thermodynamics: Processes dynamics under constant heating
7. Thermotics: Theoretical thermal analysis, thermometry and calorimetry
8. Rationality of creating kinetic models: how to mold a reaction path in solid-state
9. Facilitated reaction kinetics by thermal analysis
10. Thermokinetics in DTA experiments
11. Physical thermokinetics of reversible thermal decomposition by thermogravimetry
12. Exploiting fractals, tackle thermal processes and truer non-isothermal kinetics
Part 2: Practical applications
13. Constrained states of glasses, exploitation of transition temperatures, glass -forming coefficients and concepts of fragility
14. Explanation of crystallization kinetics of both glasses during heating and melts on cooling while indicating the incorrectness of Kissinger method
15. Kinetic phase diagrams as an enforced consequence of rapid changing temperature or diminishing particle size
16. Thermodynamic description of mobile components behavior in non-stoichiometric partially open ceramic systems and superconductor model
17. Thermodynamics of periodic processes, dendrite self-similarity, self-organization and stimulated quantum diffusion
18. Non-bridging oxygen in silica bio-compatible ceramics, poly-sialates and geo-polymers
19. Thermodynamics and social behavior, econophysics and ecosystems applied in relation of laws against feelings
20. Thermal analysis scheme aimed at better understanding of the Earth’s climate changes due to the alternating irradiation
Appendix
1. Thermophysical Properties
2. Glossary of terms, definitions and symbols
1. Thermophysical examinations, experimental set-ups, sample and temperature control
2. Understanding of temperature, heat, gradients and related thermodynamics
3. Phenomenological approach to the caloric theory of heat: An alternative thermodynamics
4. Thermostatics as textbook thermodynamics
5. Equilibrium background and its importance for temperature and particle size
6. Thermodynamics: Processes dynamics under constant heating
7. Thermotics: Theoretical thermal analysis, thermometry and calorimetry
8. Rationality of creating kinetic models: how to mold a reaction path in solid-state
9. Facilitated reaction kinetics by thermal analysis
10. Thermokinetics in DTA experiments
11. Physical thermokinetics of reversible thermal decomposition by thermogravimetry
12. Exploiting fractals, tackle thermal processes and truer non-isothermal kinetics
Part 2: Practical applications
13. Constrained states of glasses, exploitation of transition temperatures, glass -forming coefficients and concepts of fragility
14. Explanation of crystallization kinetics of both glasses during heating and melts on cooling while indicating the incorrectness of Kissinger method
15. Kinetic phase diagrams as an enforced consequence of rapid changing temperature or diminishing particle size
16. Thermodynamic description of mobile components behavior in non-stoichiometric partially open ceramic systems and superconductor model
17. Thermodynamics of periodic processes, dendrite self-similarity, self-organization and stimulated quantum diffusion
18. Non-bridging oxygen in silica bio-compatible ceramics, poly-sialates and geo-polymers
19. Thermodynamics and social behavior, econophysics and ecosystems applied in relation of laws against feelings
20. Thermal analysis scheme aimed at better understanding of the Earth’s climate changes due to the alternating irradiation
Appendix
1. Thermophysical Properties
2. Glossary of terms, definitions and symbols