04944nam 2201357z- 450 991055729410332120231214133225.0(CKB)5400000000041098(oapen)https://directory.doabooks.org/handle/20.500.12854/68637(EXLCZ)99540000000004109820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierTi-Based BiomaterialsSynthesis, Properties and ApplicationsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (268 p.)3-03928-987-X 3-03928-988-8 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.Ti-Based Biomaterials History of engineering & technologybicsscPowder Bed FusionTitanium alloysCobalt–Chrome alloysanisotropybcc Ti-Mo-Zr alloysInter-diffusion coefficientImpurity coefficientAtomic mobilityCALPHAD modelingtitaniumlow frequencyinductive transmissionmetallic housinghermetic sealinglongevityFEM modelactive implantable medical devicesstainlessnitinoldiaphyseal fractureimplantosseointegrationbiocompatibilitybioactive ceramic coatingsspheneECAPConformcontinuous extrusionwiremedical implantsplasma sprayingTi coatingpolymersbiomaterialsheat treatmentin situ alloyinglaser additive manufacturingmechanical propertiesmicrostructureTi–Nb alloyNi-Ti alloysurface characteristicshydrophobicmagnetic mixed EDMTiO2 nanotubescrystallizationgaseous plasmabiological responsemechanical alloyingnanoprecursorelectric pulse-assisted sinteringmetal matrix compositestitanium plateamine plasmasurface modificationhydrophilicitynew bone formationtitanium-based foamsthermal dealloyingtitanium alloybiomaterialTiMoZrTaTiMoSilow elasticity moduluscorrosiontitanium alloysmicrostructuresTNTZcopperTi2CuTi3Cuantibacterialshape memory alloytemperature variable micro-compression testsingle crystalbiomedical alloyselective electron beam additive manufactureTi6Al4V ELI alloyphase transformationspatialgradient energy densitymartensitic decompositionTi3Al intermetallic compoundfracture analysisbiofunctionalizationHistory of engineering & technologyJakubowicz Jarosławedt1310956Jakubowicz JarosławothBOOK9910557294103321Ti-Based Biomaterials3029950UNINA