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Advanced Biomaterials for Orthopaedic Application
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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.
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Keywords
- accuracy
- additive manufacturing
- ball milling
- bibliometric indicators
- bioceramics
- Biocompatibility
- Biomaterials
- Biomechanics
- bone tissue engineering
- calcium phosphate cements
- ceramic
- CFR-PEEK
- citations
- CoCr alloy
- computational model
- cross-linked PE
- digital image correlation
- direct metal laser sintering
- dry and wet friction
- dynamic loading
- finite element analysis
- Friction
- FTIR analysis
- h-index
- HIP
- hip simulator
- History of engineering & technology
- homogeneous strain
- hyaluronic acid
- Implants
- macrophages biocompatibility
- mandible condylar fractures
- Mechanical properties
- musculoskeletal multibody model
- n/a
- PLLA
- Polarization
- polyethylene
- porosity
- powder metallurgy
- precision
- prosthesis
- quality of research
- radial clearance
- scaffolds
- selective laser melting
- simulator
- small deformation level
- standard PE
- surgical treatment
- Technology, engineering, agriculture
- Technology: general issues
- Ti-28Nb-35.4 alloy
- Titanium
- Titanium alloys
- Total hip arthroplasty
- tribology
- UHMWPE
- ultimate tensile strength
- unicompartmental knee replacement
- varus and valgus alignments
- vitamin-E stabilized PE
- wear
- wear particles
- X-ray diffraction
- yield strength