Fundamentals of Ceramics  book cover
2nd Edition

Fundamentals of Ceramics

ISBN 9781032337302
Published June 14, 2022 by CRC Press
644 Pages 267 Color & 2 B/W Illustrations

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Book Description

Fundamentals of Ceramics presents readers with an exceptionally clear and comprehensive introduction to ceramic science. This Second Edition updates problems and adds more worked examples, as well as adding new chapter sections on Computational Materials Science and Case Studies.

The Computational Materials Science sections describe how today density functional theory and molecular dynamics calculations can shed valuable light on properties, especially ones that are not easy to measure or visualize otherwise such as surface energies, elastic constants, point defect energies, phonon modes, etc. The Case Studies sections focus more on applications, such as solid oxide fuel cells, optical fibers, alumina forming materials, ultra-strong and thin glasses, glass-ceramics, strong and tough ceramics, fiber-reinforced ceramic matrix composites, thermal barrier coatings, the space shuttle tiles, electrochemical impedance spectroscopy, two-dimensional solids, field-assisted and microwave sintering, colossal magnetoresistance, among others.

Table of Contents

Chapter 1.Introduction

Chapter 2. Bonding in Ceramics

Chapter 3. Structure of Ceramics

Chapter 4. Effect of Chemical Forces on Physcial Properties

Chapter 5. Thermodynamics and Kinetic Considerations

Chapter 6. Defects in Ceramics

Chapter 7. Diffusion and Electrical Conductivity

Chapter 8. Phase Equilibria

Chapter 9. Formation, Structure, and Properties of Glass

Chapter 10. Sintering and Grain Growth

Chapter 11. Mechanical Properties: Fast Fracture

Chapter 12. Creep, Subcritical Crack Growth, and Fatigue

Chapter 13. Thermal Properties

Chapter 14. Dielectric Properties

Chapter 15. Magnetic and Nonlinear Dielectric Properties

Chapter 16. Optical Properties

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Prof. Michel W. Barsoum is Distinguished Professor in the Department of Materials Science and Engineering at Drexel University. As the author of two entries on the MAX phases in the Encyclopedia of Materials Science, and the book MAX Phases published in 2013, he is an internationally recognized leader in the area of MAX phases. In 2011, he and colleagues at Drexel, selectively etched the A-group layers from the MAX phases to produce an entirely new family of 2D solids that they labeled MXenes, that have sparked global interest because of their potential in a multitude of applications. He has authored the book MAX Phases: Properties of Machinable Carbides and Nitrides, published by Wiley VCH in 2013. He has published over 450 refereed papers, including ones in top-tier journals such as Nature and Science. According to Google Scholar his h-index is >100 with over 44,000 citations. He made ISI’s most cited researchers list in 2018 and 2019. He is a foreign member of the Royal Swedish Academy of Engineering Sciences, a fellow of the American Ceramic Society and the World Academy of Ceramics. The latter awarded him the quadrennial International Ceramics Prize 2020, one of the highest honors in the field. In 2000, he was awarded a Humboldt-Max Planck Research Award for Senior US Research Scientists and spent a sabbatical year at the Max Planck Institute in Stuttgart, Germany. In 2008, he spent a sabbatical at the Los Alamos National Laboratory as the prestigious Wheatly Scholar. He has been a visiting professor at Linkoping University in Sweden since 2008. In 2017, he received a Chair of Excellence from the Nanoscience Foundation in Grenoble, France. He is co-editor of Materials Research Letters, published by Taylor & Francis.