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Fundamental Biomaterials: Metals provides current information on the development of metals and their conversion from base materials to medical devices. Chapters analyze the prope… Read more
LIMITED OFFER
Immediately download your ebook while waiting for your print delivery. No promo code is needed.
Fundamental Biomaterials: Metals provides current information on the development of metals and their conversion from base materials to medical devices. Chapters analyze the properties of metals and discuss a range of biomedical applications, with a focus on orthopedics. While the book will be of great use to researchers and professionals in the development stages of design for more appropriate target materials, it will also help medical researchers understand, and more effectively communicate, the requirements for a specific application. With the recent introduction of a number of interdisciplinary bio-related undergraduate and graduate programs, this book will be an appropriate reference volume for students.
It represents the second volume in a three volume set, each of which reviews the most important and commonly used classes of biomaterials, providing comprehensive information on materials properties, behavior, biocompatibility and applications.
Materials scientists, biomedical engineers, medical professionals working in device and application design and orthopaedics
1. Metallic Biomaterials: state of the art and new challenges
2. Degradable metallic biomaterials: the concept, current developments and future directions
3. Theory modelling and stimulation of metallic biomaterials
4. Micro- and Nanopatterning of Biomaterial Surfaces
5. Bioactive metallic surfaces for bone tissue engineering
6. Wear Characteristics and Fatigue behavior of Metallic Biomaterials
7. Degradable metallic biomaterials for cardiovascular applications
8. Nanostructured Biomimetic, Bioresponsive, and Bioactive Biomaterials
9. Metallic biomaterials for dental implant systems
10. Enhancing the mechanical and biological performance of a metallic biomaterial for orthopedic applications
11. Interface Influence of Materials and Surface Modifications
12. Metallic biomaterials for bone support and replacement
13. Surface modification of metallic bone implants-porous coating for bone ingrowth
14. Biomaterials and Biotechnology Schemes Utilizing TiO2 Nanotube Arrays
15. Optical Detection of Protein Adsorption on Doped Titanium Surface
16. Biocompatible coatings for metallic biomaterials
17. Magnesium and its alloys as orthopedic biomaterials
18. Orthopedical and biomedical applications of titanium and zirconium metals
19. The Use of Porous Tantalum for Reconstructing Bone Loss in Orthopaedic Surgery
20. Reactions of metal in human body and cytotoxicity of metallic biomaterials
21. Ti-Based Bulk Metallic Glasses for Biomedical Applications
22. Life cycle analysis of metallic biomaterials
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Dr. Thomas is the Vice-Chancellor and a Professor of Polymer Science and Engineering at Mahatma Gandhi University, India. Additionally, he serves as the Director of the School of Energy Materials at the same institution. Dr. Thomas is internationally recognized for his contributions to polymer science and engineering, covering polymer nanocomposites, elastomers, polymer blends, interpenetrating polymer networks, polymer membranes, green composites, nanocomposites, nanomedicine, and green nanotechnology. His groundbreaking inventions in polymer nanocomposites, polymer blends, green bionanotechnological, and nano-biomedical sciences have significantly contributed to the development of new materials in the automotive, space, housing, and biomedical fields. Dr. Thomas has been conferred with Honoris Causa (DSc) by the University of South Brittany, Lorient, France.
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