Advanced Ceramic Processing and Technology

Advanced Ceramic Processing and Technology, 1st Edition

Advanced Ceramic Processing and Technology, 1st Edition,Jon G.P. Biner,ISBN9780815512561


William Andrew



229 X 152

This book contains a series of independent chapters, focusing on different aspects of ceramics processing. The aim is to offer the views of leading experts as to the current state-of-the-art of a number of ceramics processing options and, most importantly

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Advanced ceramics and ceramic matrix composites continue to find increasing use in modern technological applications as ever more stringent demands are placed upon materials' properties. While advanced ceramics and ceramic composites have many potentially useful properties, they can be extremely difficult to fabricate. This book contains a series of independent chapters focusing on different aspects of ceramics processing. The views of leading experts on a number of ceramics processing options and the direction of which their field is taking. Aimed at the materials engineer, this book is a wonderful reference as well as a guide to expanding the knowledge of processing techniques and their underlying philosophies.


Materials engineers in and involved with the ceramics industry

Jon G.P. Biner

Affiliations and Expertise

University of Nottingham, UK

Advanced Ceramic Processing and Technology, 1st Edition

1. Advanced Processing Concepts for Increased Ceramic Reliability
1. Introduction
2. Processing Methods
3. Densification Concepts
4. Colloidal Powder Processing
5. Concluding Remarks
2. Processing of Silicon Nitride Powders
1. Introduction
2. Experimental Procedure
3. Results and Discussions
4. Summary and Conclusions
3. Wet Forming Processes as a Potential Solution to Agglomeration Problems
1. Introduction
2. The Green Microstructure
3. Origin and Nature of Agglomerates
4. Development of the Green Microstructure
5. The Forming Process and Green Microstructure Homogeneity
6. Experimental Procedure
7. Results and Discussion
8. Conclusions
4. Processing of Electronic Ceramics
1. Introduction
2. Powder Preparation
3. Mixing and Milling
4. Drying
5. Dry Forming
6. Tape Casting
7. Slip Casting
8. Additive Burnout
9. Further Processing of Ceramic Tape
10. Sintering
11. Finishing
5. Processing of Ceramic Composites
1. Introduction
2. Overview of Composite Mechanisms/Microstructures and Processing
3. Powder Based Methods
4. Non-Powder Based Methods
5. Summary, Needs and Trends
6. Injection Moulding of Fine Ceramics
1. Introduction
2. Compounding
3. Mixing Devices
4. Particle Surface Modification
5. Filling the Cavity
6. Formulation of Moulding Compositions
7. Solidification in the Cavity
8. Removal of Organic Vehicle
9. Conclusions
7. Electrophoretic Deposition as a Processing Route for Ceramics
1. Introduction
2. Applications of Electrodeposition
3. Fundamentals of Electrodeposition
4. Examples of Working Systems
5. Applications Developed to Pilot Plant Scale
6. Conclusion
8. Microwave Processing of Ceramics
1. Introduction
2. Fundamentals of Microwave Heating
3. Dielectric Properties
4. Development of the Basic Theoretical Concepts
5. Applicators
6. Heat Transfer
7. Applications
8. Conclusions
9. Thin Film Deposition Processes for Electronic and Structural Ceramics
1. Introduction
2. Atomistic Deposition Processes
3. Microstructure and Crystallinity of the Deposits
4. Stress and Gaseous Concentration
5. Recent Developments
6. Concluding Remarks
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