Ti-Based Biomaterials

Recently, great attention has been paid to materials that can be used in the human body to prepare parts that replace failed bone structures. Of all materials, Ti-based materials are the most desirable, because they provide an optimum combination of mechanical, chemical, and biological properties. T...

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Формат: Online
Мова:Англійська
Опубліковано: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Онлайн доступ:ONIX_20210501_9783039289875_383
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_version_ 1869527711155748864
collection Directory of Open Access Books
description Recently, great attention has been paid to materials that can be used in the human body to prepare parts that replace failed bone structures. Of all materials, Ti-based materials are the most desirable, because they provide an optimum combination of mechanical, chemical, and biological properties. The successful application of Ti biomaterials has been confirmed mainly in dentistry, orthopedics, and traumatology. Titanium biocompatibility is practically the highest of all metallic biomaterials; however, new solutions are being sought to continuously improve their biocompatibility and osseointegration. Thus, the chemical modification of Ti results in the formation of new alloys or composites, which provide new perspectives for Ti biomaterials applications. This book covers broad aspects of Ti-based biomaterials concerning the design of their structure, mechanical, and biological properties. This book demonstrates that the new Ti-based compounds and their surface treatment provide the best properties for biomedical applications.
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institution Directory of Open Access Books
language eng
publishDate 2021
publishDateRange 2021
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-686372024-04-11T15:10:31Z Ti-Based Biomaterials Jakubowicz, Jarosław Powder Bed Fusion Titanium alloys Cobalt–Chrome alloys anisotropy bcc Ti-Mo-Zr alloys Inter-diffusion coefficient Impurity coefficient Atomic mobility CALPHAD modeling titanium low frequency inductive transmission metallic housing hermetic sealing longevity FEM model active implantable medical devices stainless nitinol diaphyseal fracture implant osseointegration biocompatibility bioactive ceramic coatings sphene ECAP Conform continuous extrusion wire medical implants plasma spraying Ti coating polymers biomaterials heat treatment in situ alloying laser additive manufacturing mechanical properties microstructure Ti–Nb alloy Ni-Ti alloy surface characteristics hydrophobic magnetic mixed EDM TiO2 nanotubes crystallization gaseous plasma biological response mechanical alloying nanoprecursor electric pulse-assisted sintering metal matrix composites titanium plate amine plasma surface modification hydrophilicity new bone formation titanium-based foams thermal dealloying titanium alloy biomaterial TiMoZrTa TiMoSi low elasticity modulus corrosion titanium alloys microstructures TNTZ copper Ti2Cu Ti3Cu antibacterial shape memory alloy temperature variable micro-compression test single crystal biomedical alloy selective electron beam additive manufacture Ti6Al4V ELI alloy phase transformation spatial gradient energy density martensitic decomposition Ti3Al intermetallic compound fracture analysis biofunctionalization thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Recently, great attention has been paid to materials that can be used in the human body to prepare parts that replace failed bone structures. Of all materials, Ti-based materials are the most desirable, because they provide an optimum combination of mechanical, chemical, and biological properties. The successful application of Ti biomaterials has been confirmed mainly in dentistry, orthopedics, and traumatology. Titanium biocompatibility is practically the highest of all metallic biomaterials; however, new solutions are being sought to continuously improve their biocompatibility and osseointegration. Thus, the chemical modification of Ti results in the formation of new alloys or composites, which provide new perspectives for Ti biomaterials applications. This book covers broad aspects of Ti-based biomaterials concerning the design of their structure, mechanical, and biological properties. This book demonstrates that the new Ti-based compounds and their surface treatment provide the best properties for biomedical applications. 2021-05-01T15:16:21Z 2021-05-01T15:16:21Z 2020 book ONIX_20210501_9783039289875_383 9783039289875 9783039289882 https://directory.doabooks.org/handle/20.500.12854/68637 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/2399 https://mdpi.com/books/pdfview/book/2399 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03928-988-2 10.3390/books978-3-03928-988-2 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039289875 9783039289882 268 Basel, Switzerland open access
spellingShingle Powder Bed Fusion
Titanium alloys
Cobalt–Chrome alloys
anisotropy
bcc Ti-Mo-Zr alloys
Inter-diffusion coefficient
Impurity coefficient
Atomic mobility
CALPHAD modeling
titanium
low frequency
inductive transmission
metallic housing
hermetic sealing
longevity
FEM model
active implantable medical devices
stainless
nitinol
diaphyseal fracture
implant
osseointegration
biocompatibility
bioactive ceramic coatings
sphene
ECAP
Conform
continuous extrusion
wire
medical implants
plasma spraying
Ti coating
polymers
biomaterials
heat treatment
in situ alloying
laser additive manufacturing
mechanical properties
microstructure
Ti–Nb alloy
Ni-Ti alloy
surface characteristics
hydrophobic
magnetic mixed EDM
TiO2 nanotubes
crystallization
gaseous plasma
biological response
mechanical alloying
nanoprecursor
electric pulse-assisted sintering
metal matrix composites
titanium plate
amine plasma
surface modification
hydrophilicity
new bone formation
titanium-based foams
thermal dealloying
titanium alloy
biomaterial
TiMoZrTa
TiMoSi
low elasticity modulus
corrosion
titanium alloys
microstructures
TNTZ
copper
Ti2Cu
Ti3Cu
antibacterial
shape memory alloy
temperature variable micro-compression test
single crystal
biomedical alloy
selective electron beam additive manufacture
Ti6Al4V ELI alloy
phase transformation
spatial
gradient energy density
martensitic decomposition
Ti3Al intermetallic compound
fracture analysis
biofunctionalization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Ti-Based Biomaterials
title Ti-Based Biomaterials
title_full Ti-Based Biomaterials
title_fullStr Ti-Based Biomaterials
title_full_unstemmed Ti-Based Biomaterials
title_short Ti-Based Biomaterials
title_sort ti based biomaterials
topic Powder Bed Fusion
Titanium alloys
Cobalt–Chrome alloys
anisotropy
bcc Ti-Mo-Zr alloys
Inter-diffusion coefficient
Impurity coefficient
Atomic mobility
CALPHAD modeling
titanium
low frequency
inductive transmission
metallic housing
hermetic sealing
longevity
FEM model
active implantable medical devices
stainless
nitinol
diaphyseal fracture
implant
osseointegration
biocompatibility
bioactive ceramic coatings
sphene
ECAP
Conform
continuous extrusion
wire
medical implants
plasma spraying
Ti coating
polymers
biomaterials
heat treatment
in situ alloying
laser additive manufacturing
mechanical properties
microstructure
Ti–Nb alloy
Ni-Ti alloy
surface characteristics
hydrophobic
magnetic mixed EDM
TiO2 nanotubes
crystallization
gaseous plasma
biological response
mechanical alloying
nanoprecursor
electric pulse-assisted sintering
metal matrix composites
titanium plate
amine plasma
surface modification
hydrophilicity
new bone formation
titanium-based foams
thermal dealloying
titanium alloy
biomaterial
TiMoZrTa
TiMoSi
low elasticity modulus
corrosion
titanium alloys
microstructures
TNTZ
copper
Ti2Cu
Ti3Cu
antibacterial
shape memory alloy
temperature variable micro-compression test
single crystal
biomedical alloy
selective electron beam additive manufacture
Ti6Al4V ELI alloy
phase transformation
spatial
gradient energy density
martensitic decomposition
Ti3Al intermetallic compound
fracture analysis
biofunctionalization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet Powder Bed Fusion
Titanium alloys
Cobalt–Chrome alloys
anisotropy
bcc Ti-Mo-Zr alloys
Inter-diffusion coefficient
Impurity coefficient
Atomic mobility
CALPHAD modeling
titanium
low frequency
inductive transmission
metallic housing
hermetic sealing
longevity
FEM model
active implantable medical devices
stainless
nitinol
diaphyseal fracture
implant
osseointegration
biocompatibility
bioactive ceramic coatings
sphene
ECAP
Conform
continuous extrusion
wire
medical implants
plasma spraying
Ti coating
polymers
biomaterials
heat treatment
in situ alloying
laser additive manufacturing
mechanical properties
microstructure
Ti–Nb alloy
Ni-Ti alloy
surface characteristics
hydrophobic
magnetic mixed EDM
TiO2 nanotubes
crystallization
gaseous plasma
biological response
mechanical alloying
nanoprecursor
electric pulse-assisted sintering
metal matrix composites
titanium plate
amine plasma
surface modification
hydrophilicity
new bone formation
titanium-based foams
thermal dealloying
titanium alloy
biomaterial
TiMoZrTa
TiMoSi
low elasticity modulus
corrosion
titanium alloys
microstructures
TNTZ
copper
Ti2Cu
Ti3Cu
antibacterial
shape memory alloy
temperature variable micro-compression test
single crystal
biomedical alloy
selective electron beam additive manufacture
Ti6Al4V ELI alloy
phase transformation
spatial
gradient energy density
martensitic decomposition
Ti3Al intermetallic compound
fracture analysis
biofunctionalization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20210501_9783039289875_383