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SEDL / STP / STP1365-EB
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STP1365
Cobalt-Base Alloys for Biomedical Applications
Disegi JA, Kennedy RL, Pilliar R
Pages: 224
Published: 1999
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STP 1365 is a unique publication that focuses on the use of cobalt-base alloys in orthopaedic applications. It features 18 peer-reviewed papers written by world renowned biomedical experts, that focus on new materials research, advanced process developments, accelerated wear studies, and clinical information related to the use of Co-26Cr-6Mo for surgical implant applications. STP 1365 covers the latest information to emerge in recent years on topics such as: • Alloy Design • Processing Variables • Corrosion/Fretting Resistance • Abrasion and Wear Characterization • Implant Surface Modification • Biological Response • Clinical Performance. This volume is a comprehensive resource for orthopaedic surgeons, biomedical researchers and engineers, product design engineers, quality control engineers, product metallurgists and managers, implant device manufacturers, and academics.
Table of Contents
Net-Shaping of Co-Cr-Mo (F-75) via Metal Injection Molding
Tandon R.
The Production and Properties of Wrought High Carbon Co-Cr-Mo Alloys
Berry G., Bolton J., Brown J., McQuaide S.
Amorphous Alloys Containing Cobalt for Orthopaedic Applications
Tesk J., Johnson C., Skrtic D., Tung M., Hsu S.
Effect of Powder Morphology and Sintering Atmosphere on the Structure-Property Relationships in PM Processed Co-Cr-Mo Alloys Intended for Surgical Implants
Becker B., Bolton J.
Influence of Post Processing on the Mechanical Properties of Investment Cast and Wrought Co-Cr-Mo Alloys
Berlin R., Gustavson L., Wang K.
Metallurgy, Microstructure, Chemistry and Mechanical Properties of a New Grade of Cobalt-Chromium Alloy Before and After Porous-Coating
Mishra A., Hamby M., Kaiser W.
A Dispersion Strengthened Co-Cr-Mo Alloy for Medical Implants
Wang K., Berlin R., Gustavson L.
Process Metallurgy of Wrought CoCrMo Alloy
Lippard H., Kennedy R.
The Role of the FCC-HCP Phase Transformation During the Plastic Deformation of Co-Cr-Mo-C Alloys for Biomedical Applications
Salinas-Rodríguez A.
Residual Abrasive Material from Surface Grinding of Metal-Metal Hip Implants: A Source of Third-Body Wear?
Wang A., Bobyn J., Yue S., Medley J., Chan F.
Metal-on-Metal Wear Testing of Co-Cr Alloys
Wang K., Wang A., Gustavson L.
Comparison of Two Cobalt-Based Alloys for Use in Metal-On-Metal Hip Prostheses: Evaluation of the Wear Properties in a Simulator
St. John K., Poggie R., Zardiackas L., Afflitto R.
Effect of Metallic Counterpart Selection on the Tribological Properties of UHMWPE
Killar J., Freese H., Kennedy R., LaBerge M.
An Overview of PVD Coating Development for Co-Based Alloys
Pellman M.
The Development of Surface Coatings for Co-Cr-Mo Alloys Based on Quaternary AlSiFeMn Intermetallic Compounds
Flores-Valdés A., Castillejos-Escobar A., Acosta-González F., Escobedo-Bocardo J., Toscano-Giles A.
Metal-On-Metal Hip Replacements: Wear Performance and Cellular Response To Wear Particles
Campbell P., McKellop H., Alim R., Mirra J., Nutt S., Dorr L., Amstutz H.
Serum Protein Carriers of Chromium in Patients with Cobalt-Base Alloy Total Joint Replacement Components
Hallab N., Jacobs J., Skipor A., Black J., Mikecz K., Galante J.
Author Index
Subject Index
Committee: F04
Paper ID: STP1365-EB
DOI: 10.1520/STP1365-EB
ISBN-EB: 978-0-8031-5409-4
 ASTM International is a member of CrossRef.
0-8031-2608-5
978-0-8031-2608-4
STP1365-EB
STP 1365
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