Introduction To Biomaterials
Download Introduction To Biomaterials PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Introduction To Biomaterials book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Introduction to Biomaterials
A succinct introduction to the field of biomaterials engineering, packed with practical insights.
Introduction to Biomaterials
Author: Donglu Shi
language: en
Publisher: World Scientific Publishing Company Incorporated
Release Date: 2006
1. Introduction to bioceramics. 1.1. Bioactive materials. 1.2. References -- 2. Bioactive ceramics : structure, synthesis, and mechanical properties. 2.1. Structure of hydroxyapatite. 2.2. Synthesis of hydroxyapatite powder. 2.3. Mechanical properties of hydroxyapatite. 2.4. Other bioceramics. 2.5. References. 2.6. Problems -- 3. Bioceramic processing. 3.1. Fabrication and mechanical properties of porous bioceramics. 3.2. Coating of bioceramic thick films on bio-inert porous subs. 3.3. Coating on dense substrates. 3.4. Hydroxyapatite coatings for non-hard tissue applications. 3.5. Composites. 3.6. Summary. 3.7. References. 3.8. Problems -- 4. Coating of hydroxyapatite onto inner pore surfaces of the reticulated alumina. 4.1. Hydroxyapatite coating methods and characterization. 4.2. Adhesion of hydroxyapatite film on alumina substrate. 4.3. References. 4.4. Problems -- 5. Properties and characterization of biomaterials. 5.1. Characterization of ceramics. 5.2. Bioactive properties and hard tissue prosthetics. 5.3. Measurements of growth and dissolution of hydroxyapatite ceramics. 5.4. In vitro test conducted in this reasearch. 5.5. Mechanical properties. 5.6. References. 5.7. Problems -- 6. Bioactivity of hydroxyapatite. 6.1. General aspects. 6.2. In vitro testing materials and preparation. 6.3. Characterization of immersion solution. 6.4. Morphology of the reacted surfaces. 6.5. References. 6.6. Problems -- 7. Hydroxyapatite deposition mechanisms. 7.1. Material synthesis and hydroxyapatite coating. 7.2. Mechanisms of bioactivity. 7.3. References. 7.4. Problems -- 8. Biomedical metallic materials. 8.1. Microstructures and processing. 8.2. Corrosion resistance of metals. 8.3. Biological tolerance of metal. 8.4. Stainless steel. 8.5. Cobalt-based alloys. 8.6. Titanium and its alloys. 8.7. TiNi shape memory alloy. 8.8. Summary. 8.9. References. 8.10. Problems -- 9. Polymer basics. 9.1. Classification of polymers. 9.2. Characteristics of polymer. 9.3. Synthesis of polymers. 9.4. References. 9.5. Problems -- 10. Naturally occurring polymer biomaterials. 10.1. General introduction to proteins. 10.2. Collagen. 10.3. Alginate. 10.4. Chitin and chitosan. 10.5. References. 10.6. Problems -- 11. Synthetic non-biodegradable polymers. 11.1. Polyethylene. 11.2. Poly (methyl methacrylate). 11.3. Polyester. 11.4. Polycarbonate. 11.5. Polyamides. 11.6. Polyurethane. 11.7. Pofysulfones. 11.8. Poly (ether ether ketone). 11.9. References. 11.10. Problems -- 12. Synthetic biodegradable polymers. 12.1. Aliphatic polyester. 12.2. Poly (propylene fumarate). 12.3. Polyamino acid. 12.4. References. 12.5. Problems -- 13. Polymer matrix composite biomaterials. 13.1. Fiber reinforced composites. 13.2. Filler reinforced composites. 13.3. Methods to improve the interfacial bonding between phases in composites. 13.4. References. 13.5. Problems -- 14. Biomaterials for tissue engineering. 14.1. General aspects of biomaterials used for tissue engineering. 14.2. Representative biomaterials used for tissue engineering. 14.3. Biomaterial constructs for tissue engineering : scaffolds. 14.4. References. 14.5. Problems -- 15. Cells and biomolecules for tissue engineering. 15.1. Cells for tissue engineering. 15.2. Growth factor delivery in tissue engineering. 15.3. Regulatory matrix proteins. 15.4. References. 15.5. Problems -- 16. Transport and vascularization in tissue engineering. 16.1. Transport in engineered tissue. 16.2. Vascularization. 16.3. References. 16.4. Problems -- 17. Host response to tissue engineered grafts. 17.1. The foreign body response to synthetic components. 17.2. Response to biological components. 17.3. References. 17.4. Problems -- 18. Other important issues and future challenges in tissue engineering. 18.1. Organ replacement and regeneration. 18.2. Organotypic and histiotypic models. 18.3. Mechanotransduction. 18.4. Future challenges. 18.5. References. 18.6. Problems
An Introduction To Biomaterials Science And Engineering
Author: A Sandeep Kranthi Kiran
language: en
Publisher: World Scientific
Release Date: 2021-04-22
This book presents a broad scope of the field of biomaterials science and technology, focusing on theory, advances and applications. It is written for those who would like to develop their interest and knowledge towards biomaterials or materials science and engineering. All aspects of biomaterials science are thoroughly addressed, from basic principles of biomaterials, organs and medical devices to advanced topics such as tissue engineering, surface engineering, sterilization techniques, 3D printing and drug delivery systems. Readers are also introduced to major concepts of surface modification techniques, and potential applications of different classes of biomaterials. Multiple-choice questions at the end of every chapter will be helpful for students to test their understanding of each topic, with answers provided at the end of the book.Ultimately, this book offers a one-stop source of information on the essentials of biomaterials and engineering. It is useful both as an introduction and advanced reference on recent advances in the biomaterials field. Suitable readers include undergraduate and graduate students, especially those in Materials Science, Biomedical Engineering and Bioengineering.