This reference work helps researchers working at the intersection of materials science and biotechnology to engineer functional biomaterials for a variety of applications.
This reference work helps researchers working at the intersection of materials science and biotechnology to engineer functional biomaterials for a variety of applications.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ajit Behera is Assistant Professor in the Metallurgical & Materials Department at National Institute of Technology, Rourkela, India. He completed his PhD at IIT Kharagpur. Debasis Nayak is Research Associate in the Department of Material Science and Metallurgy, University of Cambridge, UK. He completed his PhD at IIT Kharagpur. Biswajit Kumar Swain is Research Scientist at Sahajanand Medical Technologies, India. He obtained his PhD in surface engineering of smart materials from the Department of Metallurgical & Materials Engineering, National Institute of Technology Rourkela, India.
Inhaltsangabe
Section 1: Introduction to Biomaterials Surface Engineering. 1. Introduction to Biomaterial Surface Engineering. 2. Criteria for Biomaterial Surface Selection. 3. Biomaterial Surfaces and Their Properties. 4. Smart Biomaterials and Their Applications. 5. Smart Materials for Bioimplant. 6. Classification of Biomaterials and Surface Strategies. 7. Corrosion, Degradation, and Material Release by Biomaterials. Section 2: Surface Synthesis and Engineering of Biomaterials. 8. Various Processing Routes for Biocompatible Materials: From Conventional Process to Additive Manufacturing. 9. Biofilm for Implant Materials. 10. Additive Manufactured Biomaterials Surfaces. 11. Various Additive Manufacturing Techniques for the Fabrication of Biomaterials. 12. Surface Modification: Carbide-, Silicide-, Nitride-Based Surface. 13. Nanoengineering in Biomaterials. 14. Smart Biomaterial Surface. 15. Energy Biomaterial Surface. Section 3: Post-Modification of Biomaterial Surface. 16. Surface Treatment of Polymeric, Ceramic, Metallic and Composite Biomaterials for Bioimplants and Medical Device Applications. 17. Surface Functionalization for Biomaterials. 18. Surface Modification Technologies and Methods of Biomaterials. 19. Mechanical Surface Treatments of Biomaterials. 20. Heat Treatment for Biomaterial Surface. 21. Surface Modification of Magnetic Nanoparticles for Biomaterials. 22. Phenomenology of Treatment of Biomaterial Surfaces. 23. LASER-based Surface Modification Techniques for Fatigue Life Improvement of Biomaterials. 24. Coating of High Entropy Alloys in Biomedical Application. 25. Surface Strategies and Classification of Biomaterials. 26: Functional Surfaces for Biomaterials
Section 1: Introduction to Biomaterials Surface Engineering. 1. Introduction to Biomaterial Surface Engineering. 2. Criteria for Biomaterial Surface Selection. 3. Biomaterial Surfaces and Their Properties. 4. Smart Biomaterials and Their Applications. 5. Smart Materials for Bioimplant. 6. Classification of Biomaterials and Surface Strategies. 7. Corrosion, Degradation, and Material Release by Biomaterials. Section 2: Surface Synthesis and Engineering of Biomaterials. 8. Various Processing Routes for Biocompatible Materials: From Conventional Process to Additive Manufacturing. 9. Biofilm for Implant Materials. 10. Additive Manufactured Biomaterials Surfaces. 11. Various Additive Manufacturing Techniques for the Fabrication of Biomaterials. 12. Surface Modification: Carbide-, Silicide-, Nitride-Based Surface. 13. Nanoengineering in Biomaterials. 14. Smart Biomaterial Surface. 15. Energy Biomaterial Surface. Section 3: Post-Modification of Biomaterial Surface. 16. Surface Treatment of Polymeric, Ceramic, Metallic and Composite Biomaterials for Bioimplants and Medical Device Applications. 17. Surface Functionalization for Biomaterials. 18. Surface Modification Technologies and Methods of Biomaterials. 19. Mechanical Surface Treatments of Biomaterials. 20. Heat Treatment for Biomaterial Surface. 21. Surface Modification of Magnetic Nanoparticles for Biomaterials. 22. Phenomenology of Treatment of Biomaterial Surfaces. 23. LASER-based Surface Modification Techniques for Fatigue Life Improvement of Biomaterials. 24. Coating of High Entropy Alloys in Biomedical Application. 25. Surface Strategies and Classification of Biomaterials. 26: Functional Surfaces for Biomaterials
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