Additive Manufacturing of Piezoelectric Ceramic-Based Biocomposites
Design, Strategies, and Challenges
- 1st Edition - April 1, 2026
- Imprint: Elsevier
- Editors: Anuj Kumar, Ankur Sood
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 3 3 0 7 8 - 0
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 3 3 0 7 9 - 7
Additive Manufacturing of Piezoelectric Ceramic-based Biocomposites: Design, Strategies, and Challenges presents the latest developments in this important research field. The bo… Read more
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Additive Manufacturing of Piezoelectric Ceramic-based Biocomposites: Design, Strategies, and Challenges presents the latest developments in this important research field. The book is designed to present an in-depth insight into additive manufacturing technology, as well as piezoelectric ceramic-based bioink development, and their utility in biomedical applications. The book begins with an introduction to additive manufacturing technology and its role in piezoelectric ceramic-based bioinks development. It then goes on to discuss the utility of 3D constructs developed through additive manufacturing techniques using piezoelectric ceramic-based bioinks for biomedical applications. Design approaches for modifying piezoelectric ceramic-based materials are also discussed in detail as well as additive manufacturing strategies for developing piezoelectric ceramic laden bioinks. Post-processing strategies are also discussed as well as computational modelling and analysis and troubleshooting and optimization. The book also contains selected case studies and real-world applications. The book will be a valuable reference resource for academic and industrial researchers, materials scientists and engineers, chemists, and manufacturers working on the research and development of advanced piezoelectric ceramics, with a particular interest in additive manufacturing processes, and biomedical applications.
- Focuses on developing piezoelectric ceramic-based biocomposites through additive manufacturing techniques
- Covers the fundamentals of the techniques, parameters affecting fabrication, and their use in biomedical applications
- Illustrates how to fabricate 3D constructs using piezoelectric ceramic-based biocomposites
- Provides economic viability and cost analysis of additive manufacturing technology for piezoelectric ceramic-based biocomposites
Academic and industrial researchers, materials scientists and engineers, chemists, and manufacturers working on the research and development of advanced piezoelectric ceramics, with a particular interest in additive manufacturing processes, and biomedical applications
1. Basics of additive manufacturing
2. Additive manufacturing techniques
3. Bioink development for additive manufacturing
4. Role of additive manufacturing for biomedical applications Bioink development using piezoelectric ceramics
5. Techniques for the development of different piezoelectric ceramic-based bioinks
6. Role of piezoelectric ceramic-based bioinks in biomedical applications
7. Challenges in the development of piezoelectric ceramic-based bioinks Piezoelectric ceramic-based biocomposites and 3D constructs
8. Additive manufacturing technologies for piezoelectric ceramic laden biocomposites
9. Surface modification strategies of piezoelectric ceramics for 3D printing
10. Strategies in additive manufacturing for piezoelectric ceramic laden biocomposites Post processing of Piezoelectric ceramic-based 3D structures
11. Post processing strategies for piezoelectric ceramic-based biocomposite 3D structures
12. Computational modelling in the development and analysis of piezoelectric ceramic-based constructs
13. Strategies for optimization and troubleshooting the final 3D structure Applications of Piezoelectric ceramic-based 3D structures
14. Successful implementation of piezoelectric ceramic-based 3D structures in biomedical applications
15. Advancements in piezoelectric ceramic-based 3D structures: an interdisciplinary approach
16. Limitations and obstacles in the clinical translation of piezoelectric ceramic-based 3D structures. Economic considerations
17. Economic viability and cost analysis of additive manufacturing technology
18. Return on investment in the field of additive manufacturing
2. Additive manufacturing techniques
3. Bioink development for additive manufacturing
4. Role of additive manufacturing for biomedical applications Bioink development using piezoelectric ceramics
5. Techniques for the development of different piezoelectric ceramic-based bioinks
6. Role of piezoelectric ceramic-based bioinks in biomedical applications
7. Challenges in the development of piezoelectric ceramic-based bioinks Piezoelectric ceramic-based biocomposites and 3D constructs
8. Additive manufacturing technologies for piezoelectric ceramic laden biocomposites
9. Surface modification strategies of piezoelectric ceramics for 3D printing
10. Strategies in additive manufacturing for piezoelectric ceramic laden biocomposites Post processing of Piezoelectric ceramic-based 3D structures
11. Post processing strategies for piezoelectric ceramic-based biocomposite 3D structures
12. Computational modelling in the development and analysis of piezoelectric ceramic-based constructs
13. Strategies for optimization and troubleshooting the final 3D structure Applications of Piezoelectric ceramic-based 3D structures
14. Successful implementation of piezoelectric ceramic-based 3D structures in biomedical applications
15. Advancements in piezoelectric ceramic-based 3D structures: an interdisciplinary approach
16. Limitations and obstacles in the clinical translation of piezoelectric ceramic-based 3D structures. Economic considerations
17. Economic viability and cost analysis of additive manufacturing technology
18. Return on investment in the field of additive manufacturing
- Edition: 1
- Published: April 1, 2026
- Imprint: Elsevier
- Language: English
AK
Anuj Kumar
Dr. Anuj Kumar is a DBT-Ramalingaswami Faculty/Assistant Professor at the School of Materials Science and Technology, Indian Institute of Technology (BHU), Varanasi, India since April 2023. Prior to this position, he was an Assistant Professor (Polymers & Biomaterials) at the School of Chemical Engineering, Yeungnam University (YU), South Korea from 2016 to 2023. He was also a Postdoc at YU (2015-2016) and an Assistant Professor (Chemistry) at DIT University (India) (2014-2015). He received his Ph.D. (Polymer Science and Engineering, 2014), M.Tech. (Fibre Science and Technology, 2009), and M.Sc. (Organic Chemistry, 2006) from IIT Roorkee, IIT Delhi, and CCSU Meerut, India, respectively. He has published more than 85 research/review articles, 03 books, and 11 book chapters (Google Citations: 4673, h-index: 35, i10-index: 66). His research interests are focused on polymer chemistry, lignocellulosic biomass, nanocellulose, biomaterials, 3D bioprinting, micro-fluidics, tissue engineering, cultured meat production, drug delivery, cancer therapy, polymer composites/nanocomposites, functional foods and packaging materials, fibres/bio-textiles hydrogel and paper-based bioelectronics, etc.
Affiliations and expertise
DBT-Ramalingaswami Faculty (Assistant Professor equivalent), School of Materials Science and Technology, Indian Institute of Technology (Banaras Hindu University), Varanasi, IndiaAS
Ankur Sood
Dr. Ankur Sood is an Assistant Professor in the School of Chemical Engineering at the Yeungnam University (YU), South Korea. He received his Ph.D. in the field of drug delivery and imaging applications of nanoparticles from GGS Indraprastha University, New Delhi, India. He has a master’s degree in the field of nanotechnology and bachelor’s degree in biotechnology. His research is focused on 3D printing, microfluidics, organ-on-a chip technology, tissue engineering, and inorganic/organic nanoparticles for drug delivery and biosensing applications
Affiliations and expertise
Assistant Professor, School of Chemical Engineering, Yeungnam University (YU), South Korea