Introduction to the Thermodynamics of Materials (7^th Ed.)

Maintaining the substance that has made Introduction to the Thermodynamics of Materials a perennial bestseller for decades, the Seventh Edition is updated to reflect the broadening field of materials science and engineering. Chapters are updated and revised throughout to be more useful and logical for students.

• Features more than 60 new worked example problems, a listing of terms and concepts introduced, and a summary section, along with a plethora of new homework problems in each chapter
• Includes more on mathematical and graphical analysis of the various state functions utilized in classical thermodynamics
• Includes a more extensive discussion of the third law of thermodynamics
• Features a new appendix on exact differential equations and mathematical relationships, including all mathematical relations among differentials of homogeneous functions utilized in the text

Written as the definitive introduction to the thermodynamic behavior of materials systems, this text presents the underlying thermodynamic principles of materials and their applications and continues to be the best undergraduate textbook in thermodynamics for materials science students. An updated solutions manual is also available for qualifying adopting professors.

Part I: Thermodynamic Principles. 1. Introduction and Definition of Terms. 2. The First Law of Thermodynamics. 3. The Second Law of Thermodynamics. 4. The Statistical Interpretation of Entropy. 5. Fundamental Equations and Their Relationships. 6. Heat Capacity, Enthalpy, Entropy, and the Third Law. Part II: Phase Equilibria. 7. Phase Equilibrium in a One‑Component System. 8. The Behavior of Gases. 9. The Behavior of Solutions. 10. Gibbs Free Energy Composition and Phase Diagrams of Binary Systems. Part III: Reactions and Transformations of Phases. 11. Reactions Involving Gases. 12. Reactions Involving Pure Condensed Phases. 13. Reaction Equilibria in Systems Containing Components in Condensed Solution. 14. Electrochemistry. 15. More Binary System Solution Models.

David R. Gaskell was a professor at Purdue University, West Lafayette, IN, where he taught until 2013. He authored the textbooks Introduction to Metallurgical Thermodynamics, Introduction to the Thermodynamics of Materials, and Introduction to Transport Phenomena in Materials Engineering.

David E. Laughlin is the ALCOA Professor of Physical Metallurgy Emeritus in the Department of Materials Science and Engineering of Carnegie Mellon University (CMU), Pittsburgh, PA. He is a fellow of the Minerals, Metals and Materials Society (TMS), an honorary member of the American Institute of Mining, Metallurgical, and Petroleum Engineers (AIME), and a fellow of ASM International.