Thermal Conductivity Theory Properties and Applications Physics of Solids and Liquids 1st Edition by Tritt Terry M ISBN 818489208X 978-8184892086

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Product details: 

ISBN 10:  818489208X 

ISBN 13: 978-8184892086

Author: Tritt Terry M

It has been almost thirty years since the publication of a book that is entirely dedicated to the theory, description, characterization and measurement of the thermal conductivity of solids. The recent discovery of new materials which possess more complicated crystal structures and, thus, more complicated phonon scattering mechanism have brought innovative challenges to the theoretical and experimental understanding of these new materials. With the development of new and novel solid materials and extensive measurement techniques, Table Of Section I (Overview of Thermal Conductivity in Solid Materials) Theory of Thermal Conductivity (Jihui Yang) Thermal Conductivity of Metals (Ctirad Uher) Thermal Conductivity of Insulators and Glasses (Vladimir Murashov and Mary Anne White) Thermal Conductivity of Semiconducto

Table of contents: 

1. Overview of Thermal Conductivity in Solid Materials

• Introduces the concept of thermal conductivity.

• Discusses its importance in materials science, electronics, thermoelectrics, and energy applications.

• Brief history and advancements in the field.

2. Theory of Thermal Conductivity

• Explains heat transfer at the atomic level: phonons (in insulators) and electrons (in metals).

• Covers Fourier’s Law, kinetic theory, and Boltzmann transport equations.

• Influence of defects, grain boundaries, and anisotropy.

3. Thermal Conductivity of Metals

• Focus on free electron model and contribution of conduction electrons.

• Wiedemann-Franz Law and temperature dependence.

• Differences between pure metals and alloys.

4. Thermal Conductivity of Insulators and Glasses

• Dominance of phonon transport.

• Impact of amorphous structure in glasses.

• Role of lattice vibrations and phonon scattering mechanisms.

5. Thermal Conductivity of Semiconductors

• Intermediate behavior between metals and insulators.

• Importance in electronics and thermal management.

• Doping effects, crystal structure, and temperature dependence.

6. Semiconductors and Thermoelectric Materials

• Special focus on low thermal conductivity materials for high thermoelectric efficiency.

• Seebeck effect, figure of merit (ZT), and optimization strategies.

• Examples: Bi₂Te₃, PbTe, skutterudites.

7. Thermal Conductivity of Superlattices

• Artificially layered structures showing modified thermal transport.

• Phonon-interface scattering and mini-band formation.

• Applications in thermoelectrics and thermal barriers.

8. Experimental Studies on Thermal Conductivity of Thin Films and Superlattices

• Overview of research findings.

• Size effects, interface quality, and anisotropy in thermal transport.

• Trends and material-specific observations.

9. Measurement Techniques

• General techniques used in thermal conductivity measurement.

• Contact and non-contact methods.

• Challenges and calibration procedures.

10. Measurement Techniques and Considerations for Determining Thermal Conductivity of Bulk Materials

• Steady-state vs. transient methods.

• Laser flash analysis, comparative cut bar, and guarded hot plate.

• Influence of sample geometry and preparation.

11. Experimental Techniques for Thin-Film Thermal Conductivity Characterization

• Techniques like Time-Domain Thermoreflectance (TDTR), 3-omega method.

• Importance of substrate effects and film thickness.

• Data interpretation and error sources.

12. Thermal Properties and Applications of Emerging Materials

• 2D materials (graphene, MoS₂), phase-change materials.

• Thermal interface materials and metamaterials.

• Application potential in electronics, aerospace, and energy.

13. Ceramics and Glasses

• Structural properties affecting thermal conductivity.

• High-temperature stability and usage in insulative components.

• Role of porosity and phase transitions.

14. Thermal Conductivity of Quasicrystalline Materials

• Unique aperiodic structure influencing phonon transport.

• Low thermal conductivity and potential thermoelectric applications.

15. Thermal Properties of Nanomaterials and Nanocomposites

• Size-dependent thermal transport.

• Interfacial thermal resistance (Kapitza resistance).

• Engineering nanocomposites for tailored thermal properties.

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