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Full Description
As healthcare challenges such as human aging and traffic accidents continue to increase exponentially, the biomedical sector faces a significant obstacle in arranging patient-specific biomedical products. Over the past two decades, additive manufacturing's printing quality and ease of production have gained global attention, particularly in the development of scaffolds and implants.
This book explores additive manufacturing technologies and their categorization, materials, processing factors, output responses, advantages, challenges, and biomedical applications. It provides a critical analysis of past biomedical applications of additive manufacturing technology, explores recent advancements, and examines the design, applications, and characterizations of biomedical components using additive manufacturing techniques. Moreover, it discusses notable applications of additive fabrication in aerospace, education, and medicine, as it showcases the medical applications of rapid prototyping, addressing computational and experimental aspects of 3D-printed biomedical devices. Also, it provides future human implications and developments.
Advanced Manufacturing Technologies in Biomedical Science: Practical Applications, Case Studies, and Future Trends offers a unique framework for understanding and evaluating the latest advancements in biomedical additive manufacturing. This book targets individuals interested in conducting research, providing valuable insights, and can serve as an authoritative source of information for manufacturers and academic researchers in the business sector.
Contents
1. Introduction of Advanced Manufacturing Technologies in Biomedical Science. 2. Nanotechnology in Biomedical Manufacturing. 3. Development of Biodegradable Materials and Advanced Coating Technologies for Biomedical Devices. 4. Additive Manufacturing in Tissue Engineering. 5. Robotics and Automation in Biomedical Manufacturing. 6. Smart Materials and Their Applications in Biomedical Science. 7. Bioprinting and Tissue Engineering. 8. Quality Control and Regulatory Compliance in Biomedical Manufacturing. 9. Social and Economic Aspects of the Advance Manufacturing Processes in Biomedical Sciences. 10. Future Trends and Challenges in Biomedical Manufacturing. 11. Case Study: Fabrication of Bioimplants using Additive Manufacturing. 12. Case Study: Experimental and Computational Aspects of Prosthetics.
