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Phase transitions in materials / Brent Fultz, California Institute of Technology.

By: Fultz, B. (Brent) [author.].
Material type: materialTypeLabelBookPublisher: Cambridge : Cambridge University Press, 2014Description: 1 online resource (xxiv, 563 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9781107589865 (ebook).Subject(s): Phase transformations (Statistical physics) -- Textbooks | Thermodynamics -- Textbooks | Materials -- Thermal properties -- Textbooks | Statistical mechanics -- TextbooksAdditional physical formats: Print version: : No titleDDC classification: 530.4/74 Online resources: Click here to access online
Contents:
Essentials of T-c phase diagrams -- Diffusion -- Nucleation -- Effects of diffusion and nucleation on phase transformations -- Energy -- Entropy -- Pressure -- Atom movements with the vacancy mechanism -- Melting -- Transformations involving precipitates and interfaces -- Spinodal decomposition -- Phase field theory -- Method of concentration waves and chemical ordering -- Diffusionless transformations -- Thermodynamics of nanomaterials -- Magnetic and electronic phase transitions -- Phase transitions in quantum materials -- Low temperature analysis of phase boundaries -- Cooperative behavior near a critical temperature -- Elastic energy of solid precipitates -- Statistical kinetics of ordering transformations -- Diffusion, dissipation, and inelastic scattering -- Vibrational thermodynamics of materials at high temperatures.
Summary: Offering a fresh viewpoint on phase changes and the thermodynamics of materials, this textbook covers the thermodynamics and kinetics of the most important phase transitions in materials science, spanning classical metallurgy through to nanoscience and quantum phase transitions. Clear, concise and complete explanations rigorously address transitions from the atomic scale up, providing the quantitative concepts, analytical tools and methods needed to understand modern research in materials science. Topics are grouped according to complexity, ensuring that students have a solid grounding in core topics before they begin to tackle more advanced material, and are accompanied by numerous end-of-chapter problems. With explanations firmly rooted in the context of modern advances in electronic structure and statistical mechanics, and developed from classroom teaching, this book is the ideal companion for graduate students and researchers in materials science, condensed matter physics, solid state science and physical chemistry.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

Essentials of T-c phase diagrams -- Diffusion -- Nucleation -- Effects of diffusion and nucleation on phase transformations -- Energy -- Entropy -- Pressure -- Atom movements with the vacancy mechanism -- Melting -- Transformations involving precipitates and interfaces -- Spinodal decomposition -- Phase field theory -- Method of concentration waves and chemical ordering -- Diffusionless transformations -- Thermodynamics of nanomaterials -- Magnetic and electronic phase transitions -- Phase transitions in quantum materials -- Low temperature analysis of phase boundaries -- Cooperative behavior near a critical temperature -- Elastic energy of solid precipitates -- Statistical kinetics of ordering transformations -- Diffusion, dissipation, and inelastic scattering -- Vibrational thermodynamics of materials at high temperatures.

Offering a fresh viewpoint on phase changes and the thermodynamics of materials, this textbook covers the thermodynamics and kinetics of the most important phase transitions in materials science, spanning classical metallurgy through to nanoscience and quantum phase transitions. Clear, concise and complete explanations rigorously address transitions from the atomic scale up, providing the quantitative concepts, analytical tools and methods needed to understand modern research in materials science. Topics are grouped according to complexity, ensuring that students have a solid grounding in core topics before they begin to tackle more advanced material, and are accompanied by numerous end-of-chapter problems. With explanations firmly rooted in the context of modern advances in electronic structure and statistical mechanics, and developed from classroom teaching, this book is the ideal companion for graduate students and researchers in materials science, condensed matter physics, solid state science and physical chemistry.

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