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TY  - BOOK
ID  - 145729592
TI  - Titanium Alloys for Biomedical Implants and Devices
AU  - Attar, Hooyar
AU  - Kent, Damon
PY  - 2021
PB  - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - History of engineering & technology
KW  - selective laser melting
KW  - gradient structure
KW  - porous biomaterial
KW  - Ti6Al4V
KW  - mechanical properties
KW  - osteoblast
KW  - biomechanics
KW  - dental implant(s)
KW  - in vitro
KW  - systematic reviews
KW  - evidence-based medicine
KW  - atrophic maxilla
KW  - titanium hybrid-plates
KW  - finite element analysis
KW  - biomechanical analysis
KW  - single-point incremental forming
KW  - AHP
KW  - cranioplasty plates
KW  - decision-making
KW  - titanium alloys
KW  - medical devices
KW  - machining
KW  - titanium
KW  - temperature
KW  - strain
KW  - grain refinement
KW  - ultrafine
KW  - nanocrystalline
KW  - mechanical characterization
KW  - press-fit
KW  - primary stability
KW  - Ti-6Al-4V
KW  - additive manufacturing
KW  - selective laser melting (SLM)
KW  - electron beam melting (EBM)
KW  - direct metal deposition (DMD)
KW  - wire and arc additive manufacturing (WAAM)
KW  - diffraction line profile analysis
KW  - extended convolution multiple whole profile (eCMWP)
KW  - implanted electrodes
KW  - electrical stimulation
KW  - corrosion
KW  - mandibular reconstruction
KW  - scaffolds
KW  - reconstruction plate
KW  - 3D printing
KW  - titanium alloy
KW  - Titanium alloys
KW  - Ti-6Al-4V-ELI
KW  - fatigue
KW  - laser cutting
KW  - post-processing
KW  - α’-martensite
KW  - HAZ
KW  - barrel grinding
KW  - notch
KW  - fracture
KW  - selective laser melting
KW  - gradient structure
KW  - porous biomaterial
KW  - Ti6Al4V
KW  - mechanical properties
KW  - osteoblast
KW  - biomechanics
KW  - dental implant(s)
KW  - in vitro
KW  - systematic reviews
KW  - evidence-based medicine
KW  - atrophic maxilla
KW  - titanium hybrid-plates
KW  - finite element analysis
KW  - biomechanical analysis
KW  - single-point incremental forming
KW  - AHP
KW  - cranioplasty plates
KW  - decision-making
KW  - titanium alloys
KW  - medical devices
KW  - machining
KW  - titanium
KW  - temperature
KW  - strain
KW  - grain refinement
KW  - ultrafine
KW  - nanocrystalline
KW  - mechanical characterization
KW  - press-fit
KW  - primary stability
KW  - Ti-6Al-4V
KW  - additive manufacturing
KW  - selective laser melting (SLM)
KW  - electron beam melting (EBM)
KW  - direct metal deposition (DMD)
KW  - wire and arc additive manufacturing (WAAM)
KW  - diffraction line profile analysis
KW  - extended convolution multiple whole profile (eCMWP)
KW  - implanted electrodes
KW  - electrical stimulation
KW  - corrosion
KW  - mandibular reconstruction
KW  - scaffolds
KW  - reconstruction plate
KW  - 3D printing
KW  - titanium alloy
KW  - Titanium alloys
KW  - Ti-6Al-4V-ELI
KW  - fatigue
KW  - laser cutting
KW  - post-processing
KW  - α’-martensite
KW  - HAZ
KW  - barrel grinding
KW  - notch
KW  - fracture
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145729592
AB  - This special issue provides a current snapshot of recent advances and ongoing challenges in the development of titanium alloys for biomedical implants and devices. Titanium offers significant advantages over other materials including higher strength and better biocompatibility. This issue highlights current trends and recent developments, including the uptake of additive manufacturing (3D printing), and approaches to improve processing and performance of titanium alloys for medical applications.
ER  -