Titanium, niobium, zirconium, and tantalum for medical and surgical applications |
Pubbl/distr/stampa | [Place of publication not identified], : ASTM, 2006 |
Disciplina | 610.28 |
Soggetto topico |
Equipment and Supplies
Biomedical and Dental Materials Metals, Light Metals Metals, Heavy Transition Elements Elements Manufactured Materials Diagnostic Techniques and Procedures Drug Therapy Inorganic Chemicals Technology, Industry, and Agriculture Zirconium Titanium Tantalum Alloys Niobium Prostheses and Implants |
ISBN | 0-8031-5511-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Mechanical and physical properties of titanium-12molybdenum-6zirconium-2 iron beta titanium alloy / N.G.D. Murray, V.R. Jablokov, and H.L. Freese -- Creation of oxidized zirconium orthopaedic implants / G. Hunter ... [et al.] -- Metallurgical attachment of a porous tantalum foam to a titanium substrate for orthopaedic applications / D.J. Medlin, J. Scrafton, and R. Shetty -- Influence of oxygen content on the mechanical properties of titanium-35 niobium-7zirconium-5tantalum beta titanium alloy / V.R. Jablokov ... [et al.] -- Effect of aging treatments on the tensile properties of Ti-35Nb-7Zr-5Ta-(0.06-0.7) O alloys / J.I. Qazi ... [et al.] -- Beta titanium alloy processed for high-strength orthopaedic applications / B. Marquardt and R. Shetty -- The application of Ti-15Mo beta titanium alloy in high-strength structural orthopedic applications / V.R. Jablokov ... [et al.] -- Mechanical properties of cast Ti-Fe-O-N alloys / M. Koike ... [et al.] -- Effect of surface reaction layer on three-point flexure bond strength of resin composite to cast Ti and Ti-6Al-7Nb / I. Watanabe ... [et al.] -- Corrosion resistance, mechanical properties, fatigue properties, and tissue response of Ti-15Zr-4Nb-4Ta alloy / Y. Okazaki and E. Gotoh -- Super elastic functional [beta] titanium alloy with Low Young's modulus for biomedical applications / M. Niinomi ... [et al.] --
Comparative evaluations of surface characteristics of cp titanium, Ti-6Al-4V and Ti-15Mo-2.8Nb-0.2Si (Timetal 21SRx) / D.W. Petersen, J.E. Lemons, and L.C. Lucas -- Comparison of stress corrosion cracking characteristics of Cp Ti, Ti-6A1-7Nb Ti-6A1-4V, and Ti-15Mo / R.S. Williamson, M.D. Roach, and L.D. Zardiackas -- Comparison of the corrosion fatigue characteristics of CP Ti-grade 4, Ti-6A1-4V ELI, Ti-6A1-7Nb, and Ti-15Mo / M.D. Roach, R.S. Williamson, and L.D. Zardiackas -- Comparison of stress corrosion cracking and corrosion fatigue (anodized and non-anodized 4 CP Ti) / L.D. Zardiackas, M.D. Roach, and R.S. Williamson -- Corrosion of modular titanium-alloy stems in cementless hip replacement / R.M. Urban, J.L. Gilbert, and J.J. Jacobs -- Influence of exposure conditions on bacterial adhesion to zirconium alloys / E.A. Yamokoski ... [et al.] -- A methodology to fabricate titanium and stainless steel wear debris for experimental use: a comparison of size, shape, and chemistry / C.M. Sprecher ... [et al.] -- Zirconium and niobium affect human osteoblasts, fibroblasts and lymphocytes in a similar manner to more traditional implant alloy materials / N.J. Hallab ... [et al.]. |
Record Nr. | UNINA-9910164299003321 |
[Place of publication not identified], : ASTM, 2006 | ||
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Lo trovi qui: Univ. Federico II | ||
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Welding metallurgy [[electronic resource] /] / Sindo Kou |
Autore | Kou Sindo |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (477 p.) |
Disciplina | 671.52 |
Soggetto topico |
Welding
Metallurgy Alloys |
ISBN |
1-280-36653-2
9786610366538 0-470-25234-0 0-471-46093-1 0-471-43402-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
WELDING METALLURGY SECOND EDITION; CONTENTS; Preface; I INTRODUCTION; 1 Fusion Welding Processes; 1.1 Overview; 1.2 Oxyacetylene Welding; 1.3 Shielded Metal Arc Welding; 1.4 Gas-Tungsten Arc Welding; 1.5 Plasma Arc Welding; 1.6 Gas-Metal Arc Welding; 1.7 Flux-Core Arc Welding; 1.8 Submerged Arc Welding; 1.9 Electroslag Welding; 1.10 Electron Beam Welding; 1.11 Laser Beam Welding; References; Further Reading; Problems; 2 Heat Flow in Welding; 2.1 Heat Source; 2.2 Analysis of Heat Flow in Welding; 2.3 Effect of Welding Parameters; 2.4 Weld Thermal Simulator; References; Further Reading
Problems3 Chemical Reactions in Welding; 3.1 Overview; 3.2 Gas-Metal Reactions; 3.3 Slag-Metal Reactions; References; Further Reading; Problems; 4 Fluid Flow and Metal Evaporation in Welding; 4.1 Fluid Flow in Arcs; 4.2 Fluid Flow in Weld Pools; 4.3 Metal Evaporation; 4.4 Active Flux GTAW; References; Further Reading; Problems; 5 Residual Stresses, Distortion, and Fatigue; 5.1 Residual Stresses; 5.2 Distortion; 5.3 Fatigue; 5.4 Case Studies; References; Further Reading; Problems; II THE FUSION ZONE; 6 Basic Solidification Concepts; 6.1 Solute Redistribution during Solidification 6.2 Solidification Modes and Constitutional Supercooling6.3 Microsegregation and Banding; 6.4 Effect of Cooling Rate; 6.5 Solidification Path; References; Further Reading; Problems; 7 Weld Metal Solidification I: Grain Structure; 7.1 Epitaxial Growth at Fusion Boundary; 7.2 Nonepitaxial Growth at Fusion Boundary; 7.3 Competitive Growth in Bulk Fusion Zone; 7.4 Effect of Welding Parameters on Grain Structure; 7.5 Weld Metal Nucleation Mechanisms; 7.6 Grain Structure Control; References; Further Reading; Problems; 8 Weld Metal Solidification II: Microstructure within Grains 8.1 Solidification Modes8.2 Dendrite and Cell Spacing; 8.3 Effect of Welding Parameters; 8.4 Refining Microstructure within Grains; References; Further Reading; Problems; 9 Post-Solidification Phase Transformations; 9.1 Ferrite-to-Austenite Transformation in Austenitic Stainless Steel Welds; 9.2 Austenite-to-Ferrite Transformation in Low-Carbon, Low-Alloy Steel Welds; References; Further Reading; Problems; 10 Weld Metal Chemical Inhomogeneities; 10.1 Microsegregation; 10.2 Banding; 10.3 Inclusions and Gas Porosity; 10.4 Inhomogeneities Near Fusion Boundary 10.5 Macrosegregation in Bulk Weld MetalReferences; Further Reading; Problems; 11 Weld Metal Solidification Cracking; 11.1 Characteristics, Cause, and Testing; 11.2 Metallurgical Factors; 11.3 Mechanical Factors; 11.4 Reducing Solidification Cracking; 11.5 Case Study: Failure of a Large Exhaust Fan; References; Further Reading; Problems; III THE PARTIALLY MELTED ZONE; 12 Formation of the Partially Melted Zone; 12.1 Evidence of Liquation; 12.2 Liquation Mechanisms; 12.3 Directional Solidification of Liquated Material; 12.4 Grain Boundary Segregation; 12.5 Grain Boundary Solidification Modes 12.6 Partially Melted Zone in Cast Irons |
Record Nr. | UNINA-9910143519403321 |
Kou Sindo
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Hoboken, N.J., : Wiley-Interscience, c2003 | ||
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Lo trovi qui: Univ. Federico II | ||
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