Niobium, Zirconium, and Tantalum for Medical and Surgical
By ASTM International
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Publisher: ASTM International
Number Of Pages: 268
Publication Date: 2006-03
ISBN-10 / ASIN: 0803134975
ISBN-13 / EAN: 9780803134973 welcome to booko.org
Product Description:
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Reactive metals and their alloys are used in a variety of biomedical applications from pace makers to hips implants. This new ASTM publication provides the latest developments on these alloys, their processing techniques for medical applications, characterization of fundamental materials properties critical to their use for biomedical applications, and evaluation of biological and clinical performance.
Eighteen peer-reviewed papers cover:
Alloy Processing—includes information on the formulation and processing of five important, new implantable metallic biomaterials:
• Ti-12Mo-6Zr-2Fe alloy ("TMZF")
• Zr-2.5Nb alloy ("Oxidized Zirconium", "Oxinium")
• Tantalum foam ("Trabecular Metal")
• Ti-35Nb-7Zr-5Ta alloy ("TiOsteum")
• Ti-15Mo alloy
Alloy Properties—focuses on the bulk and surface properties, especially stress corrosion cracking and fatigue, of a number of different titanium alloys, which may be used for implants. Additional information is provided on the fracture mechanisms of several of these alloys.
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Biological and Clinical Evaluation—deals with the biological and clinical evaluation of titanium, niobium, zirconium and tantalum used in the medical and surgical setting, including a new method of grit-blasting for implant surfaces, clinical evaluation of 14 retrieved modular body (SROM) total hip stems removed at the time of revision surgery, and a practical methodology to generate titanium and stainless steel wear debris particles for use in further study of the process of osteolysis and its treatment. source from www.booko.org
Table of Contents
Overview
Mechanical and Physical Properties of Titanium-12Molybdenum-6Zirconium-2Iron Beta Titanium Alloy
Murray N., Jablokov V., Freese H. my booko.org,my favourite website
Creation of Oxidized Zirconium Ortliopaedic Implants
Hunter G., Dickinson J., Herb B., Graham R.
Metallurgical Attachment of a Porous Tantalum Foam to a Titanium Substrate for Orthopedic Applications
Medlin D., Scrafton J., Shetty R. copyright by www.booko.org
Influence of Oxygen Content on the Mechanical Properties of Titanium-35Niobium-7Zirconium-5Tantalum Beta Titanium Alloy
Jablokov V., Murray N., Rack H., Freese H. www.booko.org—freebook and password
Effect of Aging Treatments on the Tensile Properties of Ti-35Nb-7Zr-5Ta-(0.06-0.7)O Alloys
Qazi J., Tsakiris V., Marquardt B., Rack H. booko.org my favourite website
Beta Titanium Alloy Processed for High Strength Orthopedic Applications
Marquardt B., Shetty R. copyright by www.booko.org
The Application of Ti-15Mo Beta Titanium Alloy in High Strength Structural Orthopaedic Applications
Jablokov V., Nutt M., Richelsoph M., Freese H. www.booko.org—freebook and password
Mechanical Properties of Cast Ti-Fe-0-N Alloys
Koike M., Guo Q., Brezner M., Fujii H., Okabe T.
Effect of Surface Reaction Layer on Three-Point Flexure Bond Strength of Resin Composite to Cast Ti and Ti-6AI-7Nb
Watanabe I., Liu J., Saimoto A., Griggs J., Okabe T.
Corrosion Resistance, Mechanical Properties, Fatigue Properties, and Tissue Response of Ti-15Zr-4Nb-4Ta Alloy
Okazaki Y., Gotoh E.
Super Elastic Functional β Titanium Alloy with Low Young's Modulus for Biomedical Applications
Niinomi M., Akahori T., Hattori Y., Morikaw K., Kasuga T., Fukui H., Suzuki A., Kyo K., Niwa S.
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Comparative Evaluations of Surface Characteristics of cp Titanium, Ti-6AI-4V and Ti-15Mo-2.8Nb-0.2Si (Timetal® 21SRx)
Petersen D., Lemons J., Lucas L. booko.org my favourite website
Comparison of Stress Corrosion Cracking and Corrosion Fatigue (Anodized and Non-Anodized Grade 4 CP Ti)
Zardiackas L., Roach M., Williamson R.
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Comparison of the Corrosion Fatigue Characteristics of CP Ti-Grade 4, Ti-6AI-4V ELI, Ti-6AI-7Nb, and Ti-15Mo
Roach M., Williamson R., Zardiackas L.
Comparison of Stress Corrosion Cracking Characteristics of CP Ti, Ti-6AI-7Nb, Ti-6AI-4V, and Ti-15IVIo
Williamson R., Roach M., Zardiackas L.
Corrosion of Modular Titanium Alloy Stems in Cementless Hip Replacement
Urban R., Gilbert J., Jacobs J. my booko.org,my favourite website
Influence of Exposure Conditions on Bacterial Adhesion to Zirconium Alloys
Yamokoski E., Buczynski B., Stojilovic N., Seabolt J., Bloe L., Foster R., Zito N., Kory M., Steiner R., Ramsier R.
A Methodology to Fabricate Titanium and Stainless Steel Wear Debris for Experimental Use: A Comparison of Size, Shape, and Chemistry
Sprecher C., Kunze J., Burian B., Villinger N., Jacobs J., Schneider E., Wimmer M.
Zirconium and Niobium Affect Human Osteoblasts, Fibroblasts, and Lymphocytes in a Similar Manner to More Traditional Implant Alloy Metals