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Full Description
The text covers fundamentals and technological advancements in processing, post-processing, and surface engineering of bioimplant materials. It further discusses important topics such as the additive manufacturing of bioimplants, the tribological performance of bioimplants, and the hybrid and non-traditional manufacturing of bioimplants materials. The text also presents the latest advancements in intelligent bioimplant manufacturing using artificial intelligence and machine learning.
This book:
Offers an in-depth understanding of the fundamentals, types, materials and applications of bioimplants
Highlights the effect of processing on microstructure, biocompatibility, and mechanical behavior of bioimplants
Investigates the surface modification methods and tribological performance of bioimplants
Discusses additive manufacturing and non-traditional manufacturing techniques such as electrical discharge machining and electrochemical machining of bioimplants materials
Covers smart technologies such as artificial intelligence and machine learning-based intelligent implant manufacturing for Industry 4.0
It is primarily written for senior undergraduate and graduate students and academic researchers in the fields of mechanical engineering, biomedical engineering, production engineering, industrial engineering, aerospace engineering, and manufacturing engineering.
Contents
1. Introduction to Bioimplants Manufacturing. 2. A Comprehensive Analysis of Bioimplant Manufacturing Advancements: A State-of-the-Art Review. 3. Bone Cement: A Prospective Material for Orthopaedic Bioimplants. 4. Applications and formulation of bio-ink in the development of tissue scaffold- a review. 5. Surface modification methods of titanium (Ti) -based implant materials for biomedical applications. 6. Surface coating, texturing, and engraving of bioimplants. 7. Effect of processing on microstructure, biocompatibility, and mechanical behaviour of bio-implants. 8. Hybrid and non-traditional manufacturing of bioimplants. 9. A brief review of titanium (Ti) based bio-implants fabricated using various additive manufacturing methods. 10. Post-processing of additively manufactured metallic bio-implants: Approaches, challenges and future trends. 11. Enablers for realizing controlled freeform surfaces by ultra-high pressure waterjets for bioimplant manufacturing. 12. Investigating the Tribological Performance of Bioimplants. 13. Advancing Bioimplant Manufacturing through Artificial Intelligence.
