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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.
This book is included in DOAB.
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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