Verfügbarkeit: Metallic biomaterials | Technische Universität München

Metallic biomaterials: new directions and technologies

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Bibliographische Detailangaben
Beteilige Person:	Zheng, Yufeng (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Weinheim Wiley-VCH [2017]
Schlagwörter:	Biomaterial Metallischer Werkstoff Biomaterialien Biomaterials Biotechnologie Biotechnologie i. d. Chemie Biotechnology Chemie Chemistry Materials Science Materialwissenschaften Medical Science Medizin Orthopedics Orthopädie
Links:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34126-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029680635&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	xiv, 313 Seiten Illustrationen, Diagramme
ISBN:	9783527341269

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XI ABOUT THE AUTHORS XIII 1 INTRODUCTION 1 1.1 TRADITIONAL METALLIC BIOMATERIALS 1 1.2 REVOLUTIONIZING METALLIC BIOMATERIALS AND THEIR NEW BIOFUNCTIONS 3 1.2.1 WHAT ARE REVOLUTIONIZING METALLIC BIOMATERIALS? 3 1.2.2 ANTIBACTERIAL FUNCTION 3 1.2.3 PROMOTION OF OSTEOGENESIS 5 1.2.4 REDUCTION OF IN-STENT RESTENOSIS 8 1.2.5 MRI COMPATIBILITY 9 1.2.6 RADIOPACITY 10 1.2.7 SELF-ADJUSTMENT OF YOUNG*S MODULUS FOR SPINAL FIXATION APPLICATIONS 10 1.3 TECHNICAL CONSIDERATION ON ALLOYING DESIGN OF REVOLUTIONIZING METALLIC BIOMATERIALS 10 1.3.1 EVOLUTION OF MECHANICAL PROPERTIES WITH IMPLANTATION TIME 10 1.3.2 BIOCORROSION OR BIODEGRADATION BEHAVIOR AND CONTROL ON ION RELEASE 14 1.4 NOVEL PROCESS TECHNOLOGIES FOR REVOLUTIONIZING METALLIC BIOMATERIALS 16 1.4.1 3D PRINTING 17 1.4.2 SAFETY AND EFFECTIVENESS OF BIOFUNCTIONS 17 1.4.3 SEVERE PLASTIC DEFORMATION 20 REFERENCES 20 2 INTRODUCTION OF THE BIOFUNCTIONS INTO TRADITIONAL METALLIC BIOMATERIALS 31 2.1 ANTIBACTERIAL METALLIC BIOMATERIALS 31 2.1.1 ANTIBACTERIAL METALS 31 2.1.2 ANTIBACTERIAL STAINLESS STEELS 33 2.1.2.1 AG-BEARING ANTIBACTERIAL STAINLESS STEELS 33 2.1.2.2 CU-BEARING ANTIBACTERIAL STAINLESS STEELS 34 2.1.2.3 OTHER ANTIBACTERIAL STAINLESS STEELS 36 2.1.3 ANTIBACTERIAL TI ALLOYS 37 2.1.3.1 ANTIBACTERIAL TI-AG ALLOYS 37 2.1.3.2 ANTIBACTERIAL TI-CU ALLOYS 37 2.1.3.3 ANTIBACTERIAL TINI-BASED ALLOYS 38 2.1.3.4 SURFACE-MODIFIED TI ALLOYS WITH ANTIBACTERIAL PROPERTY 38 2.1.4 ANTIBACTERIAL MG ALLOYS 39 2.1.5 ANTIBACTERIAL BULK METALLIC GLASSES 40 2.2 MRI COMPATIBILITY OF METALLIC BIOMATERIALS 40 2.2.1 MRI COMPATIBILITY OF TRADITIONAL METALLIC BIOMATERIALS 44 2.2.2 MRI-COMPATIBLE ZR ALLOYS 44 2.2.3 MRI-COMPATIBLE NB ALLOYS 46 2.2.4 OTHER MRI-COMPATIBLE ALLOYS 47 2.3 RADIOPACITY OF METALLIC BIOMATERIALS 47 2.3.1 STAINLESS STEEL STENTS 48 2.3.2 CO-CR STENTS 48 2.3.3 NITINOL STENTS 49 2.3.4 TA STENTS 49 2.3.5 OTHER METALLIC STENTS 49 REFERENCES SO 3 DEVELOPMENT OF MG-BASED DEGRADABLE METALLIC BIOMATERIALS 59 3.1 BACKGROUND 59 3.2 MG-BASED ALLOY DESIGN AND SELECTION CONSIDERATIONS 60 3.2.1 BIODEGRADATION 60 3.2.2 BIOCOMPATIBILITY 64 3.2.3 CONSIDERATIONS IN MG-BASED ALLOY DESIGN 64 3.2.3.1 MECHANICAL PROPERTY REQUIREMENTS 64 3.2.3.2 MATERIAL COMPOSITIONAL DESIGN 65 3.2.3.3 TOXICITY AND DEGRADATION CONSIDERATION 66 3.2.4 METHODS TO IMPROVE MECHANICAL PROPERTY 67 3.2.4.1 / SZTA STRENGTHENING 67 3.2.4.2 POST-PROCESSING 75 3.3 STATE OF THE ART OF THE MG-BASED ALLOY MATERIAL RESEARCH 83 3.3.1 PURE MG 83 3.3.2 MG-BASED ALLOYS WITH ESSENTIAL ELEMENTS 84 3.3.2.1 MG-CA-BASED ALLOYS 84 3.3.2.2 MG-SI- AND MG-SR-BASED ALLOYS 85 3.3.3 MG-BASED ALLOYS WITH HIGH STRENGTH 86 3.3.3.1 MG-ZN-BASED ALLOYS 87 3.3.3.2 MG-RE-BASED ALLOYS 87 3.3.4 MG-BASED ALLOYS WITH SPECIAL BIOFUNCTIONS 88 3.3.5 MG-BASED ALLOYS WITH IMPROVED CORROSION RESISTANCE 90 3.3.6 MG-BASED ALLOYS WITH BIOACTIVE SURFACES 91 3.3.6.1 DRUG-RELEASING COATINGS 91 3.3.6.2 BIOMIMETIC COATINGS 91 3.4 STATE OF THE ART OF MEDICAL MG-BASED ALLOY DEVICE RESEARCH 92 3.4.1 CARDIOVASCULAR DEVICES 92 3.4.2 ORTHOPEDIC DEVICES 94 3.5 CHALLENGES AND OPPORTUNITIES FOR MG-BASED BIOMEDICAL MATERIALS AND DEVICES 97 REFERENCES 98 4 DEVELOPMENT OF FE-BASED DEGRADABLE METALLIC BIOMATERIALS 113 4.1 BACKGROUND 113 4.2 PURE IRON 114 4.2.1 MECHANICAL PROPERTIES OF PURE IRON 114 4.2.2 METABOLISM AND TOXICITY OF PURE IRON 114 4.2.2.1 THE DISTRIBUTION OF IRON IN HUMAN BODY 114 4.2.2.2 PHYSIOLOGICAL FUNCTION OF IRON IN HUMAN BODY 114 4.2.2.5 IRON ABSORPTION 114 4.2.2.4 THE MAINTENANCE OF IRON BALANCE 117 4.2.2.5 THE TOXICITY OF IRON 118 4.2.3 BASIC PROPERTIES OF PURE IRON 118 4.2.3.1 EFFECTS OF PROCESSING TECHNOLOGIES ON THE MICROSTRUCTURE OF PURE IRON 118 4.2.4 DEGRADATION BEHAVIOR OF PURE IRON IN THE PHYSIOLOGICAL ENVIRONMENT 119 4.2.5 IN VITRO EXPERIMENTS OF PURE IRON 121 4.2.6 IN VIVO EXPERIMENTS OF PURE IRON 123 4.3 IRON ALLOYS 127 4.4 IRON-BASED COMPOSITES 139 4.4.1 COMPOSITING WITH METALS 139 4.4.2 COMPOSITING WITH NONMETALLIC MATERIALS 141 4.4.3 IN VITRO BIOCOMPATIBILITY OF IRON-BASED COMPOSITES 142 4.5 SURFACE MODIFICATION OF IRON-BASED MATERIALS 144 4.5.1 SURFACE MODIFICATION FOR IMPROVING BIOCOMPATIBILITY 144 4.5.2 SURFACE MODIFICATION FOR REGULATING DEGRADATION BEHAVIOR 147 4.6 NEW FABRICATION TECHNOLOGIES FOR IRON-BASED MATERIALS ISO 4.6.1 ELECTROFORMING ISO 4.6.2 EQUAL CHANNEL ANGULAR PRESSING ISO 4.6.3 METAL INJECTION MOLDING 1S1 4.6.4 COLD GAS DYNAMIC SPRAYING 1S1 4.6.5 3D PRINTING 1S3 4.7 OUTLOOK 1S4 REFERENCES 1S6 5 DEVELOPMENT OF ZN-BASED DEGRADABLE METALLIC BIOMATERIALS 161 5.1 BACKGROUNDS 161 5.2 BODY ZN DISTRIBUTION AND MOBILIZATION 162 5.3 THE PHYSIOLOGICAL FUNCTION OF ZN 162 5.4 STATE OF THE ART OF THE ZN-BASED ALLOY MATERIAL RESEARCH 164 5.4.1 PURE ZN 164 5.4.2 BINARY ZN-BASED ALLOYS 16S 5.4.2.1 THE MICROSTRUCTURE OF BINARY ZN-BASED ALLOY 166 5.4.2.2 THE MECHANICAL PROPERTIES OF BINARY ZN-BASED ALLOY 167 5.4.23 THE DEGRADATION BEHAVIOR OF BINARY ZN-BASED ALLOYS 167 5.4.2.4 THE BIOCOMPATIBILITY OF BINARY ZN-BASED ALLOYS 170 5.4.3 TERNARY ZN-BASED ALLOYS 174 5.4.3.1 THE MICROSTRUCTURE OF TERNARY ZN-BASED ALLOYS 174 5.43.2 THE MECHANICAL PROPERTIES OF TERNARY ZN-BASED ALLOYS 175 5.4.33 THE DEGRADATION BEHAVIOR OF TERNARY ZN-BASED ALLOYS 176 5.43.4 THE BIOCOMPATIBILITY OF TERNARY ZN-BASED ALLOYS 178 5.4.4 ZN-BASED COMPOSITES 178 5.4.4.1 ZN-ZNO COMPOSITES 178 5A4.2 ZN-NANODIAMOND COMPOSITES 182 5.5 CHALLENGES AND OPPORTUNITIES FOR ZN-BASED BIOMEDICAL MATERIALS AND DEVICES 182 REFERENCES 185 6 DEVELOPMENT OF BULK METALLIC GLASSES FOR BIOMEDICAL APPLICATION 189 6.1 BACKGROUND 189 6.1.1 OXIDE GLASSES AS BIOMATERIALS 189 6.1.2 BULK METALLIC GLASSES 191 6.1.3 FABRICATION OF BULK METALLIC GLASSES 191 6.1.4 PROPERTIES OF BULK METALLIC GLASSES 193 6.2 NONBIODEGRADABLE BULK METALLIC GLASSES 196 6.2.1 TI-BASED BULK METALLIC GLASSES 197 6.2.2 ZR-BASED BULK METALLIC GLASSES 198 6.2.3 FE-BASED BULK METALLIC GLASSES 201 6.3 BIODEGRADABLE BULK METALLIC GLASSES 202 6.3.1 MG-BASED BULK METALLIC GLASSES 202 6.3.2 CA-BASED BULK METALLIC GLASSES 207 6.3.3 ZN-BASED BULK METALLIC GLASSES 208 6.3.4 SR-BASED BULK METALLIC GLASSES 209 6.4 PERSPECTIVES ON FUTURE R&D OF BULK METALLIC GLASS FOR BIOMEDICAL APPLICATION 209 6.4.1 HOW TO DESIGN BETTER BULK METALLIC GLASSES 209 6.4.1.1 FUNCTIONAL MINOR ALLOYING ELEMENTS 209 6.4.1.2 THE GLASS-FORMING ABILITY 210 6.4.2 SURFACE MODIFICATION OF BULK METALLIC GLASSES 211 6.4.3 HOW TO MANUFACTURE MEDICAL DEVICES USING BULK METALLIC GLASSES 211 6.4.4 FUTURE BIOMEDICAL APPLICATION AREAS OF BULK METALLIC GLASS 211 REFERENCES 213 7 DEVELOPMENT OF BULK NANOSTRUCTURED METALLIC BIOMATERIALS 223 7.1 BACKGROUND 223 7.1.1 PROCESSING METHODS 224 7.1.2 PROPERTY VARIATION 225 7.1.3 STRUCTURE-PROPERTY RELATIONSHIP 228 7.2 REPRESENTATIVE BULK NANOSTRUCTURED METALLIC BIOMATERIALS 230 7.2.1 PURE TI 230 7.2.2 TI ALLOYS 235 7.2.3 STAINLESS STEELS 238 7.2.4 C O-CR-M O ALLOY 239 7.2.5 MG ALLOYS 243 7.2.6 PURE FE AND OTHER FE-BASED ALLOYS 244 7.2.7 PURE CU 244 7.2.8 PURE TA 244 7.2.9 PURE ZR 245 7.3 FUTURE PROSPECT ON BULK NANOSTRUCTURED METALLIC BIOMATERIALS 245 REFERENCES 246 8 TITANIUM IMPLANTS BASED ON ADDITIVE MANUFACTURE 255 8.1 INTRODUCTION 255 8.2 AM TECHNOLOGIES APPLICABLE FOR TI-BASED ALLOYS 256 8.2.1 POWDER MATERIALS USED IN AM TECHNOLOGY 257 8.2.2 ARCHITECTURE DESIGN IN AM TECHNOLOGY 257 8.2.3 PROCESSING METHODS OF AM TECHNOLOGY 259 8.2.4 POSTTREATMENT OF AM TECHNOLOGY 263 8.2.5 SURFACE FORMING QUALITY OF AM TECHNOLOGY 264 8.3 MICROSTRUCTURE AND PERFORMANCE EVALUATION OF TI-BASED ALLOYS FABRICATED BY AM TECHNOLOGY 265 8.3.1 MICROSTRUCTURE OF TI-BASED ALLOYS FABRICATED BY AM TECHNOLOGY 265 8.3.2 MECHANICAL PROPERTIES OF TI-BASED ALLOYS FABRICATED BY AM TECHNOLOGY 267 8.3.3 IN VITRO BIOLOGICAL EVALUATION OF TI-BASED IMPLANTS FABRICATED BY AM TECHNOLOGY 273 8.3.4 ANIMAL EXPERIMENTS OF TI-BASED IMPLANTS FABRICATED BY AM TECHNOLOGY 275 8.3.5 CLINICAL TRIALS OF TI-BASED IMPLANTS FABRICATED BY AM TECHNOLOGY 277 8.4 PROSPECTS 278 REFERENCES 285 9 FUTURE RESEARCH ON REVOLUTIONIZING METALLIC BIOMATERIALS 293 9.1 TISSUE ENGINEERING SCAFFOLDS WITH REVOLUTIONIZING METALLIC BIOMATERIALS 293 9.2 BUILDING UP OF MULTIFUNCTIONS FOR REVOLUTIONIZING METALLIC BIOMATERIALS 296 9.3 INTELLIGENTIZATION FOR REVOLUTIONIZING METALLIC BIOMATERIALS 300 REFERENCES 304 INDEX 307
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spellingShingle	Zheng, Yufeng Metallic biomaterials new directions and technologies Biomaterial (DE-588)4267769-5 gnd Metallischer Werkstoff (DE-588)4136513-6 gnd
subject_GND	(DE-588)4267769-5 (DE-588)4136513-6
title	Metallic biomaterials new directions and technologies
title_auth	Metallic biomaterials new directions and technologies
title_exact_search	Metallic biomaterials new directions and technologies
title_full	Metallic biomaterials new directions and technologies Yufeng Zheng, Xiaoxue Xu, Zhigang Xu, Junqiang Wang, and Hong Cai
title_fullStr	Metallic biomaterials new directions and technologies Yufeng Zheng, Xiaoxue Xu, Zhigang Xu, Junqiang Wang, and Hong Cai
title_full_unstemmed	Metallic biomaterials new directions and technologies Yufeng Zheng, Xiaoxue Xu, Zhigang Xu, Junqiang Wang, and Hong Cai
title_short	Metallic biomaterials
title_sort	metallic biomaterials new directions and technologies
title_sub	new directions and technologies
topic	Biomaterial (DE-588)4267769-5 gnd Metallischer Werkstoff (DE-588)4136513-6 gnd
topic_facet	Biomaterial Metallischer Werkstoff
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34126-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029680635&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT zhengyufeng metallicbiomaterialsnewdirectionsandtechnologies AT wileyvch metallicbiomaterialsnewdirectionsandtechnologies

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