Biomaterials for Advanced Manufacturing - Cutting-Edge Technologies and Applications

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Biomaterials for Advanced Manufacturing: Cutting-Edge Technologies and Applications provides a comprehensive overview of the manufacturing techniques and approaches for the design and application of biomaterials. The need for materials which are both durable and sustainable is a key challenge faced by many researchers; various design and manufacturing techniques are utilised to emphasise the most vital qualities of biomaterials, crafting them into specialised mediums for a range of biomedical applications. This book reviews a broad selection of these technologies and their associated applications in biomedicine, from laser machining, joining, and electrical discharge machining, through to emerging approaches such as nanotechnology-enabled engineering. This book also highlights the environmental and sustainability aspects of these approaches and biomaterials, with a look toward developing better eco-friendly materials for biomedical applications. Biomaterials for Advanced Manufacturing: Cutting-Edge Technologies and Applications is of interest to researchers and R&D groups interested in evaluating the most effective manufacturing technologies for the development of novel sustainable biomaterials.

List of contents

Section 1: Introduction and Design Approaches
1. Introduction to biomaterials in manufacturing: classifications, synthesis and fabrication techniques
2. Evaluation and applications of biomaterials in the modern era
3. Sustainable bio-based polymers for manufacturing applications
4. Advances in biodegradable and compostable biomaterials
5. Biomimicry and bio-inspired designs in biomaterials-assisted manufacturing
6. Development of smart biomaterials for responsive manufacturing processes

Section 2: Manufacturing and Surface Modification Technologies
7. An overview of machining approaches of biomaterials and challenges
8. Laser machining of biomaterials
9. Ultrasonic machining approaches of biomaterials in biomedical fields
10. Electrical discharge machining of biomaterials in biomedical applications
11. Advanced/Hybrid machining approaches for machining of biomaterials
12. Micro-machining techniques of biomaterials for biomedical applications
13. Joining/welding methods suitable for biomaterials
14. Applications of 3D printing with biomaterials in manufacturing
15. Surface modification techniques of biomaterials for enhanced biocompatibility

Section 3: Emerging Technologies, Specific Applications, and Ethical Issues
16. Nanotechnology-enabled biomaterials for enhanced manufacturing capabilities
17. Bio-inspired soft robotics with biomaterials
18. Biomaterials for wearable sensor
19. Biomaterials for tissue engineering and regenerative medicine.
20. Biomaterials for drug delivery systems
21. Circular economy approaches for sustainable manufacturing with biomaterials
22. Ethical and regulatory considerations in manufacturing with biomaterials