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- Wiley
More About This Title The Fracture of Brittle Materials: Testing and Analysis
- English
English
Supports the use and development of strong, fracture-resistant, and mechanically reliable ceramic materials
The Fracture of Brittle Materials thoroughly sets forth the key scientific and engineering concepts underlying the selection of test procedures for fracture toughness, strength determination, and reliability predictions. With this book as their guide, readers can confidently test and analyze a broad range of brittle materials in order to make the best use of existing materials as well as to support the development of new materials. The authors explain the importance of microstructure in these determinations and describe the use of quantitative fractography in failure analysis.
The Fracture of Brittle Materials is relevant to a broad range of ceramic materials (i.e., any inorganic non-metal), including semiconductors, cements and concrete, oxides, carbides, and nitrides. The book covers such topics as:
Basic principles of fracture mechanics underlying brittle material tests and analysis procedures
Theory and mechanisms of environmentally enhanced crack growth
Fracture mechanics tests to determine a material's resistance to fast fracture
Test and analysis methods to assess the strength of ceramics
Methods to analyze the fracture process based on quantitative measurements of the fracture surface
Effect of a material's microstructure
Methods for predicting the lifetime of brittle components under stress
Throughout the book, figures and illustrations help readers understand key concepts and methods. Replete with real-world examples, this text enables engineers and materials and ceramics scientists to select and implement the optimal testing methods for their particular research needs and then accurately analyze the results.
- English
English
STEPHEN W. FREIMAN, PhD, is the former deputy director of the Materials Science and Engineering Laboratory at the National Institute of Standards and Technology. He is now President of Freiman Consulting. Dr. Freiman has authored over 200 papers on brittle fracture and was the first chairman of the ASTM International Subcommittee addressing this topic. He is a Fellow and Distinguished Life Member of the American Ceramic Society (ACerS).
JOHN J. MECHOLKSY Jr., PhD, is Professor in the Department of Materials Science and Engineering at the University of Florida. He has published over 200 technical articles in the area of fracture analysis of brittle materials. He is a Fellow of ACerS and served on their board of directors from 2006 to 2009. He served as chair of the Subcommittee on Fracture Testing of Brittle Materials (E24.07) for ASTM.
- English
English
Acknowledgments xi
1. Introduction 1
2. Fracture Mechanics Background 6
3. Environmentally Enhanced Crack Growth 19
4. Fracture Mechanics Tests 32
5. Strength Testing 68
6. Quantitative Fractography 99
7. Microstructural Effects 131
8. Predicting Reliability 145
9. Concluding Remarks 158
References 161
Name Index 175
Subject Index 179
- English
English
“The book primarily seeks to provide a practical, hands-on approach to the analysis of brittle materials.” (Metall, 1 June 2012)