Reprint
Advanced Biomaterials for Orthopaedic Application
The Challenge of New Composites and Alloys Used as Medical Devices
Edited by
June 2020
202 pages
- ISBN978-3-03928-636-2 (Paperback)
- ISBN978-3-03928-637-9 (PDF)
This book is a reprint of the Special Issue Advanced Biomaterials for Orthopaedic Application: The Challenge of New Composites and Alloys Used as Medical Devices that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
This book covers a wide range of topics in the orthopaedic fields and can be used as a textbook for the final undergraduate engineering course or as a topic on tribology at the postgraduate level. This book can serve as a useful reference for academics, tribology, and materials researchers; mechanical, materials, and physics engineers; biomedical scientists and professionals in tribology; and related industries. The scientific interest in this book will be evident for many important centres of research, including laboratories and universities throughout the world.
Format
- Paperback
License
© 2020 by the authors; CC BY-NC-ND license
Keywords
vitamin-E stabilized PE; cross-linked PE; standard PE; hip simulator; FTIR analysis; Ti-28Nb-35.4 alloy; powder metallurgy; ball milling; mechanical properties; biocompatibility; total hip arthroplasty; musculoskeletal multibody model; dynamic loading; finite element analysis; radial clearance; dry and wet friction; digital image correlation; homogeneous strain; small deformation level; accuracy; precision; calcium phosphate cements; polarization; CoCr alloy; wear particles; hyaluronic acid; macrophages biocompatibility; finite element analysis; total hip arthroplasty; UHMWPE; musculoskeletal multibody model; tribology; h-index; bibliometric indicators; biomaterials; quality of research; citations; biomaterials; ceramic; friction; hip; implants; polyethylene; prosthesis; simulator; wear; mandible condylar fractures; surgical treatment; titanium; PLLA; finite element analysis; Selective Laser Melting; Direct Metal Laser Sintering; porosity; titanium alloys; yield strength; ultimate tensile strength; X-Ray Diffraction; n/a; computational model; biomechanics; unicompartmental knee replacement; UHMWPE; CFR-PEEK; varus and valgus alignments; bioceramics; additive manufacturing; scaffolds; bone tissue engineering