Titanium in Medical and Dental Applications is an essential reference book for those involved in biomedical materials and advanced metals. Written by well-known experts in the field, it covers a broad array of titanium uses, including implants, instruments, devices, the manufacturing processes used to create them, their properties, corrosion resistance and various fabrication approaches. Biomedical titanium materials are a critically important part of biomaterials, especially in cases where non-metallic biomedical materials are not suited to applications, such as the case of load-bearing…mehr
Titanium in Medical and Dental Applications is an essential reference book for those involved in biomedical materials and advanced metals. Written by well-known experts in the field, it covers a broad array of titanium uses, including implants, instruments, devices, the manufacturing processes used to create them, their properties, corrosion resistance and various fabrication approaches. Biomedical titanium materials are a critically important part of biomaterials, especially in cases where non-metallic biomedical materials are not suited to applications, such as the case of load-bearing implants.
The book also covers the use of titanium for implants in the medical and dental fields and reviews the use of titanium for medical instruments and devices.
Section 1: Summary of Titanium Alloy mechanical properties, corrosion resistance, fabrication approaches and Alloy Design for Biomedical Use1.1: Titanium for Medical and Dental Applications, An Introduction1.2: Advances in Titanium Metal Component Fabrication, An Overview1.2 Design of Titanium Implants for Additive Manufacturing1.3: The Molecular Orbital Approach and its Application to Biomedical Titanium Alloy Design1.5 Additively Manufactured Ti-6Al-4V Lattice Structures for Medical Applications
Section 2: Titanium for Implants, Medical2.1: Processing cannulated titanium bars for screws and nails in orthopedics: a proprietary approach2.2: Transition of surface modification of titanium for medical and dental use2.3: Modern methods of implant surface geometry modification of titanium and its alloys for enhanced biomedical characteristics2.4: Surface Modifications and Cellular Responses of Biomedical Thin Films on Titanium Implants2.5: The Effect of Nitinol on Medical Device Innovation2.6: Additive Manufacturing of Ti alloys for Biomedical Applications2.7: Titanium Spinal Fixation Devices2.8: Biocompatible beta-Ti alloys with enhanced strength due to increased oxygen content2.9: Nanostructured pure Ti for development of miniaturized biomedical implants2.10: Mechanical performance and cell response of pure titanium with ultrafine grained structure produced by severe plastic deformation2.11: 3-D Printed Ti-6Al-4V Implants2.12: Microstructure and lattice defects in ultra-fine grained biomedical alpha + beta and metastable beta Ti alloys2.13: Aluminum- and Vanadium-free Titanium Alloys for Application in Medical Engineering2.14: Ti-Nb-Zr system and its surface biofunctionalization for biomedical applications
Section 3: Titanium for Implants, DentaL3.1:Ti-6Al-4V orthopedic implants made by selective electron beam melting3.2 3D Printed Titanium Alloys of Orthopedic Applications3.3: 3D Printing of Low Modulus Titanium for Medical Applications
Section 4: Titanium Implants for Dental Applications4.1: Why Titanium in Dental Applications4.2: The role of Titanium Implants in Dentistry4.3: Titanium MIM for manufacturing of medical implants and devices
Section 5: Nitinol Applications in Medical and Dental Applications5.1: Nitinol and its Applications in Medical/Dental Device 5b5.2: NiTi shape memory alloys for medical applications
Section 1: Summary of Titanium Alloy mechanical properties, corrosion resistance, fabrication approaches and Alloy Design for Biomedical Use1.1: Titanium for Medical and Dental Applications, An Introduction1.2: Advances in Titanium Metal Component Fabrication, An Overview1.2 Design of Titanium Implants for Additive Manufacturing1.3: The Molecular Orbital Approach and its Application to Biomedical Titanium Alloy Design1.5 Additively Manufactured Ti-6Al-4V Lattice Structures for Medical Applications
Section 2: Titanium for Implants, Medical2.1: Processing cannulated titanium bars for screws and nails in orthopedics: a proprietary approach2.2: Transition of surface modification of titanium for medical and dental use2.3: Modern methods of implant surface geometry modification of titanium and its alloys for enhanced biomedical characteristics2.4: Surface Modifications and Cellular Responses of Biomedical Thin Films on Titanium Implants2.5: The Effect of Nitinol on Medical Device Innovation2.6: Additive Manufacturing of Ti alloys for Biomedical Applications2.7: Titanium Spinal Fixation Devices2.8: Biocompatible beta-Ti alloys with enhanced strength due to increased oxygen content2.9: Nanostructured pure Ti for development of miniaturized biomedical implants2.10: Mechanical performance and cell response of pure titanium with ultrafine grained structure produced by severe plastic deformation2.11: 3-D Printed Ti-6Al-4V Implants2.12: Microstructure and lattice defects in ultra-fine grained biomedical alpha + beta and metastable beta Ti alloys2.13: Aluminum- and Vanadium-free Titanium Alloys for Application in Medical Engineering2.14: Ti-Nb-Zr system and its surface biofunctionalization for biomedical applications
Section 3: Titanium for Implants, DentaL3.1:Ti-6Al-4V orthopedic implants made by selective electron beam melting3.2 3D Printed Titanium Alloys of Orthopedic Applications3.3: 3D Printing of Low Modulus Titanium for Medical Applications
Section 4: Titanium Implants for Dental Applications4.1: Why Titanium in Dental Applications4.2: The role of Titanium Implants in Dentistry4.3: Titanium MIM for manufacturing of medical implants and devices
Section 5: Nitinol Applications in Medical and Dental Applications5.1: Nitinol and its Applications in Medical/Dental Device 5b5.2: NiTi shape memory alloys for medical applications
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