Thermodynamics Books

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Materials/Engineering Books by Subject Matter

Material Properties Under Intensive Dynamic Loading

Understanding the physical and thermomechanical response of materials subjected to intensive dynamic loading is a challenge of great significance in engineering today. This volume assumes the task of gathering both experimental and diagnostic methods in one place, since not much information has been previously disseminated in the scientific literature. This book will thus be an invaluable companion for both the seasoned practitioner as well as for the novice entering the field of experimental shock physics.

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Engineered Materials Handbook Vol. 2: Engineering Plastics

Engineering Plastics is designed and written for working engineers. The volume's Guide to Engineering Plastics Families offers articles describing 40 major engineering plastics families, 29 thermoplastics and 11 thermosets. Content includes major commercially available resins, typical costs, major applications, competitive materials, significant characteristics, performance properties, design and processing considerations, and major suppliers.

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Interfacial Transport Phenomena

This is an extensively revised second edition of "Interfacial Transport Phenomena", a unique presentation of transport phenomena or continuum mechanics focused on momentum, energy, and mass transfer at interfaces. In addition to tightening the focus of the book there are two important additions: an extended discussion of transport phenomena at common lines or three-phase lines of contact, as well as a new theory for the extension of continuum mechanics to the nanoscale region immediately adjacent to the interface. Applications of this theory are also clarified and discussed.

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Thermodynamics of Microstructures

This information packed text and reference book introduces mathematical models for describing microstructural phenomena. The teaching method of the book is enhanced with solved problems. Each chapter has exercises complemented with notes, hints, and answers, and references important literature. This solid background in computational thermodynamics will allows the material scientist and material designer to use computational methods to develop new materials by modeling phase equilibia, molecular structure, and dynamics.

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Theory of Defects in Semiconductors

Semiconductor science and technology is the art of defect engineering. The theoretical modeling of defects has improved dramatically over the past decade. These tools are now applied to a wide range of materials issues: quantum dots, buckyballs, spintronics, interfaces, amorphous systems, and many others. This volume presents a coherent and detailed description of the field, and brings together leaders in theoretical research. Today's state-of-the-art, as well as tomorrow’s tools, are discussed: the supercell-pseudopotential method, the GW formalism,Quantum Monte Carlo, learn-on-the-fly molecular dynamics, finite-temperature treatments, etc. A wealth of applications are included, from point defects to wafer bonding or the propagation of dislocation.

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