Corrosion of Ceramic Materials (3rd Ed.) Corrosion Technology Series
Auteur : McCauley Ronald A.
Reflecting the many changes in the field since the publication of the second edition, Corrosion of Ceramic Materials, Third Edition incorporates more information on bioceramics, including nanomaterials, as well as the weathering of construction materials. Adhering to the original plan of classification by chemistry, this edition reorganizes the topics into four main sections: Fundamentals, Corrosion Analysis, Corrosion of Specific Materials, and Properties and Corrosion.
New to the Third Edition
- New chapters on corrosion by biological sources
- New chapter on corrosion of architectural materials
- Additional material on thermal and environmental barrier coatings
- Expanded chapter on composites
- More questions and examples
- New literature sources in each chapter where appropriate
With an abundance of practical features and new information, this expanded and completely reorganized third edition helps readers address corrosion problems and create the most corrosion-resistant systems possible. Designed as a reference, it could also be used as a text in a graduate or senior undergraduate course.
Fundamentals. Corrosion Analysis. Corrosion of Specific Materials. Properties and Corrosion. Minimization of Corrosion. Epilogue. Glossary of Terms. Index.
Ronald A. McCauley is Professor Emeritus in the Department of Materials Science and Engineering at Rutgers University. Dr. McCauley is a member of the American Ceramic Society, the American Society of Testing and Materials, the Mineralogical Society of America, and the National Association of Corrosion Engineers. He is the author and coauthor of numerous professional papers. He earned a Ph.D. from Pennsylvania State University.
Date de parution : 04-2017
15.6x23.4 cm
Date de parution : 03-2013
Ouvrage de 430 p.
15.6x23.4 cm
Thèmes de Corrosion of Ceramic Materials :
Mots-clés :
Bioactive Glasses; Sintering Aid; materials engineering; Borate Glasses; chemistry of corrosion; Silicon Nitride; corrosion by gases; liquids; and solids; Glassy Phase; models for evaluating corrosion; Dissolution Rate; corrosion problems; Glass Composition; corrosion-resistant systems; Crack Tip; corrosion by biological sources; Crack Velocity; corrosion of architectural materials; SCC; thermal and environmental barrier coatings; Environmental Barrier Coatings; Corrosion Analysis; Crack Growth; Corrosion of Ceramic; Distilled Water; corrosion of glass; Oxidation Resistance; bioceramics; Actual Service Conditions; corrosive degradation; Interfacial Reaction Layers; corrosion of composite materials; Borosilicate Glass; Surface Compressive Layer; Soda Lime Silicate Glasses; Silicate Glasses; Salt Weathering; Pore Size Distribution; Silica Rich Layer; Yttrium Silicates; Carbon Fiber Reinforced Polymer