Additive Manufacturing of Advanced Ceramic Materials
- 1st Edition - September 1, 2026
- Latest edition
- Editor: Chaudhery Mustansar Hussain
- Language: English
Advanced ceramics exhibit exceptional properties such as high-temperature resistance, superior strength, and excellent electrical and thermal conductivity, making them integral in… Read more
Description
Description
Advanced ceramics exhibit exceptional properties such as high-temperature resistance, superior strength, and excellent electrical and thermal conductivity, making them integral in various industries like aerospace, healthcare, and electronics. However, traditional manufacturing methods for ceramics still pose various challenges for achieving intricate designs and complex structures. Additive Manufacturing of Advanced Ceramic Materials provides a comprehensive exploration of additive manufacturing techniques that are tailored to overcome these challenges, offering researchers, engineers, and industry professionals a roadmap to harness the full potential of advanced ceramics through innovative 3D printing and related processes. The reader will gain valuable insights into the intricacies of additive manufacturing processes such as selective laser sintering, binder jetting, and stereolithography as applied to ceramics, along with discussions on material properties, design considerations, and post-processing techniques. Additionally, the book explores emerging trends such as multi-material printing, hybrid manufacturing, and the integration of advanced characterization techniques, empowering readers to leverage additive manufacturing technologies to innovate and optimize the production of high-performance ceramic components for various applications ranging from aerospace and automotive to biomedical and electronics industries.
Key features
Key features
- Provides a comprehensive review of additive manufacturing techniques used for the fabrication of advanced ceramic materials and components
- Covers fundamental principles, advanced processes, material properties, design considerations, and practical applications
- Contains detailed discussions on process optimization, design for additive manufacturing, quality control measures, and real-world case studies.
Readership
Readership
Academic and industrial researchers, materials scientists and engineers, manufacturers, and other professionals working on the research and development of advanced ceramics, with a particular interest in additive manufacturing and its use in ceramics engineering
Table of contents
Table of contents
PART 1: FUNDAMENTALS OF ADDITIVE MANUFACTURING OF ADVANCED CERAMIC MATERIALS
1. Introduction to Additive Manufacturing of Advanced Ceramic Materials
2. Computational Modeling and Simulation for Additive Manufacturing of Advanced Ceramic Materials
3. Design Considerations, Optimizing Build Parameters, Surface Finish and Coating Techniques for Additive Manufacturing of Advanced Ceramic Materials
PART2: ADVANCED CERAMIC MATERIALS FOR ADDITIVE MANUFACTURING
4. Oxide and Non-Oxide Advanced Ceramics in Additive Manufacturing of Advanced Ceramic Materials
5. Polymer-Derived Ceramics in Additive Manufacturing of Advanced Ceramic Materials
6. Ceramic Matrix Composites (CMCs) & Ceramic Nanocomposites in Additive Manufacturing of Advanced Ceramic Materials
7. Piezoelectric and Ferroelectric Ceramics in Additive Manufacturing of Advanced Ceramic Materials
8. Smart and Responsive Ceramics in Additive Manufacturing of Advanced Ceramic Materials
PART 3: ADDITIVE MANUFACTURING TECHNOLOGIES FOR ADVANCED CERAMICS
9. Stereolithography, Selective Laser Sintering and Binder Jetting Techniques for Additive Manufacturing of Advanced Ceramic Materials
10. Powder Bed Fusion Techniques, Extrusion-Based Additive and Hybrid Additive for Additive Manufacturing of Advanced Ceramic Materials
11. Post-Processing Automation in Additive Manufacturing of Advanced Ceramic Materials
12. Liquid/Slurry- based deposition technique in Additive Manufacturing of Advanced Ceramic Materials
PART 4: CASE STUDIES OF ADDITIVE MANUFACTURING OF ADVANCED CERAMIC MATERIALS
13. CASE STUDIES-I Advanced Ceramic 3D Printing for Aerospace Applications
14. CASE STUDIES-II Advanced Ceramic 3D printing in dental crowns and bridges 3D printing in dental crowns and bridges
PART 5: VARIOUS ASPECTS AND FUTURE DIRECTIONS IN ADDITIVE MANUFACTURING OF ADVANCED CERAMIC MATERIALS
15. Environmental Impact Assessment in Additive Manufacturing of Advanced Ceramic Materials
16. Blockchain in Supply Chain for Additive Manufacturing of Advanced Ceramic Materials
17. Human-Machine Collaboration & Bioinspired Design in Additive Manufacturing of Advanced Ceramic Materials
18. Scaling Up, Sustainability, Regulatory Compliance and Standards of Additive Manufacturing of Advanced Ceramic Materials
19. Future, Challenges and Opportunities in Ceramic AM
1. Introduction to Additive Manufacturing of Advanced Ceramic Materials
2. Computational Modeling and Simulation for Additive Manufacturing of Advanced Ceramic Materials
3. Design Considerations, Optimizing Build Parameters, Surface Finish and Coating Techniques for Additive Manufacturing of Advanced Ceramic Materials
PART2: ADVANCED CERAMIC MATERIALS FOR ADDITIVE MANUFACTURING
4. Oxide and Non-Oxide Advanced Ceramics in Additive Manufacturing of Advanced Ceramic Materials
5. Polymer-Derived Ceramics in Additive Manufacturing of Advanced Ceramic Materials
6. Ceramic Matrix Composites (CMCs) & Ceramic Nanocomposites in Additive Manufacturing of Advanced Ceramic Materials
7. Piezoelectric and Ferroelectric Ceramics in Additive Manufacturing of Advanced Ceramic Materials
8. Smart and Responsive Ceramics in Additive Manufacturing of Advanced Ceramic Materials
PART 3: ADDITIVE MANUFACTURING TECHNOLOGIES FOR ADVANCED CERAMICS
9. Stereolithography, Selective Laser Sintering and Binder Jetting Techniques for Additive Manufacturing of Advanced Ceramic Materials
10. Powder Bed Fusion Techniques, Extrusion-Based Additive and Hybrid Additive for Additive Manufacturing of Advanced Ceramic Materials
11. Post-Processing Automation in Additive Manufacturing of Advanced Ceramic Materials
12. Liquid/Slurry- based deposition technique in Additive Manufacturing of Advanced Ceramic Materials
PART 4: CASE STUDIES OF ADDITIVE MANUFACTURING OF ADVANCED CERAMIC MATERIALS
13. CASE STUDIES-I Advanced Ceramic 3D Printing for Aerospace Applications
14. CASE STUDIES-II Advanced Ceramic 3D printing in dental crowns and bridges 3D printing in dental crowns and bridges
PART 5: VARIOUS ASPECTS AND FUTURE DIRECTIONS IN ADDITIVE MANUFACTURING OF ADVANCED CERAMIC MATERIALS
15. Environmental Impact Assessment in Additive Manufacturing of Advanced Ceramic Materials
16. Blockchain in Supply Chain for Additive Manufacturing of Advanced Ceramic Materials
17. Human-Machine Collaboration & Bioinspired Design in Additive Manufacturing of Advanced Ceramic Materials
18. Scaling Up, Sustainability, Regulatory Compliance and Standards of Additive Manufacturing of Advanced Ceramic Materials
19. Future, Challenges and Opportunities in Ceramic AM
Product details
Product details
- Edition: 1
- Latest edition
- Published: September 1, 2026
- Language: English
About the editor
About the editor
CM
Chaudhery Mustansar Hussain
Prof. Chaudhery Mustansar Hussain, PhD, is an adjunct professor and director of laboratories in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, United States. His research focuses on sustainability, the applications of nanotechnology and advanced materials, environmental management, analytical chemistry and other various industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of around 200 books, including scientific monographs and handbooks in his research areas. He has published with ELSEVIER, American Chemical Society, Royal Society of Chemistry, John Wiley & Sons, CRC Press, and Springer.
Affiliations and expertise
Adjunct Professor and Director of Chemistry & EVSC Labs, Department of Chemistry and Environmental Science, New Jersey Institute of Technology (NJIT), Newark, NJ, USA