Details

Autor(en) / Beteiligte

• Oshida, Yoshiki

Titel

Bioscience and bioengineering of titanium materials [electronic resource]

Auflage

1st ed

Beschreibungen/Notizen

• Description based upon print version of record.
• Includes bibliographical references and index.
• Cover; Bioscience and Bioengineering of Titanium Materials; Copyright page; Contents; Prologue; Chapter 1. Introduction; References; Chapter 2. Materials Classification; 2.1. General; 2.2. Medical/Dental Titanium and its Alloys; References; Chapter 3. Chemical and Electrochemical Reactions; 3.1. Discoloration; 3.2. Corrosion in Media Containing Fluorine Ion Bleaching Agents; 3.3. Corrosion Resistance, Effects of Environmental and Mechanical-Assisted Actions; 3.4. Metal Ion Release and Dissolution; 3.5. Galvanic Corrosion; 3.6. Microbiology-Induced Corrosion; 3.7. Reaction with Hydrogen
• ReferencesChapter 4. Oxidation and Oxides; 4.1. Formation of Titanium Oxides; 4.2. Influences on Biological Process; 4.3. Crystal Structures of Ti Oxides; 4.4. Characterization of Oxides; 4.5. Unique Applications of Titanium Oxide; 4.6. Oxide Growth, Stability, and Breakdown; 4.7. Reaction with Hydrogen Peroxide; References; Chapter 5. Mechanical and Tribological Behaviors; 5.1. Fatigue; 5.2. Fracture and Fracture Toughness; 5.3. Biotribological Actions; References; Chapter 6. Biological Reaction; 6.1. Toxicity; 6.2. Cytocompatibility (Toxicity to Cells); 6.3. Allergic Reaction
• 6.4. Metabolism6.5. Biocompatibility; 6.6. Biomechanical Compatibility; References; Chapter 7. Implant-Related Biological Reactions; 7.1. Bone Healing; 7.2. Hemocompatibility; 7.3. Cell Adhesion, Adsorption, Spreading, and Proliferation; 7.4. Roughness and Cellular Response to Biomaterials; 7.5. Cell Growth; 7.6. Tissue Reaction and Bone Ingrowth; 7.7. Osseointegration and Bone/Implant Interface; 7.8. Some Adverse Factors for Loosening Implants; References; Chapter 8. Implant Application; 8.1. General; 8.2. Clinical Reports; 8.3. Surface and Interface Characterization
• 8.4. Reactions in Chemical and Mechanical Environments8.5. Reaction in Biological Environment; References; Chapter 9. Other Applications; 9.1. Denture Bases; 9.2. Crowns and Bridges; 9.3. Clasps; 9.4. Posts and Cores; 9.5. Titanium Fiber and Titanium Oxide Powder as Reinforcement for Bone Cement; 9.6. Sealer Material; 9.7. Shape-Memory Dental Implant; 9.8. Orthodontic Appliances; 9.9. Endodontic Files and Reamers; 9.10. Clamps and Staples; References; Chapter 10. Fabrication Technologies; 10.1. Casting; 10.2. Machining; 10.3. Electro Discharge Machining (EDM) and CAD/CAM
• 10.4. Isothermal Forming10.5. Superplastic Forming (SPF); 10.6. Diffusion Bonding (DB); 10.7. Powder Metallurgy; 10.8. Metal Injection Molding (MIM); 10.9. Laser Welding/Forming; 10.10. Soldering; 10.11. Heat Treatment (HT); References; Chapter 11. Surface Modifications; 11.1. Sandblasting and Surface Texturing; 11.2. Shot-Peening and Laser-Peening; 11.3. Chemical, Electrochemical, and Thermal Modifications; 11.4. Coating; 11.5. Porosity Controlled Surface and Texturing; 11.6. Foamed Metal; 11.7. Coloring; References; Chapter 12. Future Perspectives
• 12.1. Titanium Industry and New Materials Development
• This unique book about bioscience and the bioengineering of titanium materials is based on more than 1,000 published articles. It bridges the gap between the medical/dental fields and the engineering/technology areas, due to the author's unique experience in both during the last 30 years. The book covers Materials Classifications, Chemical and Electrochemical Reactions, Oxidation, Biological Reactions, Implant-related Biological Reactions, Applications, Fabri-cation Technologies, Surface Modifications, and Future Perspectives.* Provides quick access to the primary literature in this fi
• English