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dc.contributor.editorDobrzański, Leszek Adam
dc.contributor.editorDobrzańska-Danikiewicz, Anna D.
dc.contributor.editorDobrzański, Lech Bolesław
dc.contributor.editorDobrzańska, Joanna
dc.date.accessioned2022-01-11T13:52:41Z
dc.date.available2022-01-11T13:52:41Z
dc.date.issued2021
dc.identifierONIX_20220111_9783036525228_947
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/77115
dc.description.abstractThis book aims to summarize the latest achievements in the development and manufacturing of modern biomaterials used in modern medicine and dentistry, for example, in cases where, as a result of a traffic or sports accident, aging, resection of organs after oncological surgery, or dangerous inflammation, there is a need to replace lost organs, tissues, and parts of the human body. The essence of biomedical materials is their constant contact with living tissues, organisms, or microorganisms and, therefore, they should meet numerous requirements from various fields, including medicine, biology, chemistry, tissue engineering, and materials science. For this reason, biomaterials must be compatible with the organism, and biocompatibility issues must be addressed before using the product in a clinical setting. The production and synthesis of biomaterials require the use of various technologies and methods to obtain the appropriate material, which is then processed using advanced material processing technologies. Often, however, it is necessary to directly manufacture a specific product with individualized geometric features and properties tailored to the requirements of a particular patient. In such cases, additive manufacturing methods are increasingly used. In this sense, it can be considered that the Biomaterials 4.0 stage has been reached, and detailed information is included in the individual chapters of this book on the achievements in the development and manufacturing of modern biomaterials used in modern regenerative medicine, regenerative dentistry, and tissue engineering.
dc.languageEnglish
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issuesen_US
dc.subject.othersol-gel phase transitions
dc.subject.otherinjectable scaffolds
dc.subject.otherchitosan
dc.subject.othercalcium β-glycerophosphate
dc.subject.otherrheology
dc.subject.otherbone tissue engineering
dc.subject.otherdiblock copolymers
dc.subject.otherdrug delivery systems
dc.subject.othernanoparticles
dc.subject.othernanoprecipitation
dc.subject.otherself-assembly
dc.subject.otherimplant
dc.subject.otherstainless steel
dc.subject.othernickel
dc.subject.otherleaching
dc.subject.othernitrogen
dc.subject.othercytotoxicity
dc.subject.othernanodendrites
dc.subject.othernanostar
dc.subject.otherfibroblast cells
dc.subject.othergelatin
dc.subject.otherone-pot synthesis
dc.subject.otherhollow mesoporous silica
dc.subject.otherporous silica
dc.subject.otherhigh drug loading capacity
dc.subject.otherdrug delivery system
dc.subject.otherfretting
dc.subject.otherfretting wear
dc.subject.otherNi-Cr-Mo
dc.subject.otherdental alloys
dc.subject.othertitaniumcarbonitride
dc.subject.otherTi(C, N) coating
dc.subject.otherthin films
dc.subject.otherzirconium carbide
dc.subject.otherantimicrobial properties
dc.subject.othermedical implants
dc.subject.other316L stainless steel
dc.subject.othersintering
dc.subject.othersurface nitriding
dc.subject.othernitrogen absorption
dc.subject.otherresponse surface methodology
dc.subject.othersodium alginate
dc.subject.otherhydrogel material
dc.subject.otherregenerative medicine
dc.subject.otherurethra
dc.subject.otherhybrid materials
dc.subject.otherhydroxyapatite
dc.subject.otherFEA
dc.subject.otherV-shaped tooth defects
dc.subject.otherfillings
dc.subject.otherglass-ionomer cement
dc.subject.otherflowable composite
dc.subject.otherstomatognathic system
dc.subject.otherprosthetic restorations
dc.subject.othersurgical guide
dc.subject.otherdental prosthesis restoration manufacturing center
dc.subject.otherCBCT tomography
dc.subject.otherdental implants
dc.subject.otherimplant-scaffolds
dc.subject.otherhybrid multilayer biological-engineering composites biomaterials
dc.subject.otherCAD/CAM methods
dc.subject.otheradditive manufacturing technologies
dc.subject.otherselective laser sintering
dc.subject.otherstereolithography
dc.subject.otherDentistry 4.0
dc.subject.otherIndustry 4.0
dc.subject.otherrobocasting
dc.subject.otherbioactive glass
dc.subject.otherscaffold
dc.subject.othersol–gel
dc.subject.other45S5 Bioglass®
dc.subject.otherbiomaterials
dc.subject.otherbiomedical implants
dc.subject.otheradditive manufacturing
dc.subject.otherdental prosthetic restorations
dc.subject.otherTi6Al4V dental alloy
dc.subject.otherstructural X-ray analysis
dc.subject.otherenergy-dispersive X-ray spectroscope
dc.subject.othermetallography
dc.subject.othertensile and bending strength
dc.subject.othercorrosion resistance
dc.subject.othertribological tests
dc.subject.otherin-vitro tests
dc.subject.otherindustry 4.0
dc.subject.otherdentistry 4.0
dc.subject.otherSARS-CoV-2 pandemic
dc.subject.otherSPEC strategy
dc.subject.otherelimination clinical aerosol at the source
dc.subject.otherdendrological matrix
dc.subject.otherphotopolymer materials
dc.subject.otheradditive digital light printing
dc.subject.otherdentistry sustainable development
dc.subject.otherdental prophylaxis
dc.subject.otherdental interventionistic treatment
dc.subject.othercaries
dc.subject.otherperiodontology
dc.subject.othertoothlessness
dc.subject.otherendodontics
dc.subject.otherdental implantology
dc.subject.otherdental prosthetics
dc.subject.otherdentist safety
dc.subject.otherdentist ethics
dc.subject.otherCo–Cr dental alloys
dc.subject.othercorrosion
dc.subject.otherporcelain firing
dc.subject.otherSLM
dc.subject.otherMSM
dc.subject.otherCST
dc.subject.otherlight-cured composites
dc.subject.otherphotopolymerization process
dc.subject.othermicrohardness
dc.subject.otheroptimization
dc.subject.otherregression analysis
dc.subject.otherhealth
dc.subject.otherwell-being
dc.subject.otherlong and healthy life policy
dc.subject.othermedicine
dc.subject.otherdentistry
dc.subject.othermedical ethics
dc.subject.otherCOVID-19 pandemic
dc.subject.otherbioengineering
dc.subject.othermedical engineering
dc.subject.otherdental engineering
dc.subject.otherbiomedical materials
dc.subject.otherBioengineering 4.0
dc.subject.otherengineers’ ethics
dc.subject.otherfilling materials
dc.subject.othersealants
dc.subject.otherobturation
dc.subject.othergutta-percha
dc.subject.otherResilon
dc.subject.otherprocedural benchmarking
dc.subject.othercomparative matrices
dc.subject.othervirtual approach
dc.subject.otherdigital twin
dc.subject.otherscanning electron microscopy
dc.subject.othern/a
dc.titleSynthesis and Characterization of Biomedical Materials
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-2523-5
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036525228
oapen.relation.isbn9783036525235
oapen.pages544
oapen.place.publicationBasel, Switzerland


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