Thermodynamics, kinetics and microstructure modelling /

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Thermodynamics, kinetics and microstructure modelling /

Gill, Simon P. A., - Personal Name; Institute of Physics (Great Britain), - Personal Name;

"Version: 202203"--Title page verso.Includes bibliographical references.1. Introduction -- 1.1. Motivation -- 1.2. Microstructural features -- 1.3. Microstructure-property relationships -- 1.4. A framework for microstructure evolutionpart I. Thermodynamics and phase diagrams. 2. Thermodynamic quantities -- 2.1. Enthalpy -- 2.2. Entropy -- 2.3. Gibb's free energy -- 2.4. Phase diagrams for pure substances3. Binary systems -- 3.1. A single phase system with two components -- 3.2. A two phase system with two components -- 3.3. Sub-lattice models and stoichiometric phases -- 3.4. Real binary systems4. Ternary systems and beyond -- 4.1. How to read a ternary phase diagram -- 4.2. A simple ternary system -- 4.3. Examples with four or more components5. Driving force for nucleation and growth -- 5.1. Phase energy change for nucleation and growth -- 5.2. Calculating the phase energy change -- 5.3. The total driving force for nucleationpart II. Kinetics and microstructure evolution. 6. Kinetic processes -- 6.1. An atomic model of diffusion -- 6.2. Defining diffusion parameters in TDB files -- 6.3. Diffusion in a regular solution -- 6.4. Mass conservation -- 6.5. Determining the concentration field7. Nucleation, growth and coarsening in solids -- 7.1. Nucleation -- 7.2. Growth of a solid phase in a solid matrix -- 7.3. Coarsening8. Modelling solid-solid phase transitions -- 8.1. A two particle model -- 8.2. Population balance (or KWN) models -- 8.3. Massive transformations -- 8.4. A simplified model for phase transformations9. Modelling liquid-solid phase transitions -- 9.1. Simple solidification models for a binary system -- 9.2. A phase field model for solidification -- 9.3. Stability of the liquid-solid interface -- 10. Exercises -- 11. Solutions.This course text provides a practical hands-on introduction to the essentials of kinetics, thermodynamics and microstructure modelling of materials. It provides concise practical descriptions of kinetics and microstructure modelling, condensing the essential information into an engaging and accessible text.Graduate students in mechanical engineering, materials science, metallurgy, materials physics. This is a core text for courses on kinetics and microstructure modelling.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Professor Simon P A Gill is the Chair in Theoretical Mechanics at the University of Leicester, UK. His research has largely focused on the development and application of novel numerical techniques for modelling the mechanics and evolution of material systems. His papers cover a wide variety of problems, material systems and numerical methods.Title from PDF title page (viewed on April 8, 2022).

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Series Title: -
Call Number: -
Publisher: : .,
Collation: 1 online resource (various pagings) :illustrations (some color).
Language: English
ISBN/ISSN: 9780750331470
Classification: 531.11
Content Type: -
Media Type: -
Carrier Type: -
Edition: -
Subject(s): Materials.
Dynamics
Thermodynamics
Microstructure
Mechanical engineering & materials.
Specific Detail Info: -
Statement of Responsibility: Simon P.A. Gill.

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