Verfügbarkeit: Biomimetics - materials, structures and processes

Biomimetics - materials, structures and processes: examples, ideas and case studies

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Bibliographische Detailangaben
Weitere Verfasser:	Gruber, Petra (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg Springer 2011
Schriftenreihe:	Biological and medical physics, biomedical engineering
Schlagworte:	Bionik
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XV, 266 S. Ill., graph. Darst. 25 cm
ISBN:	9783642119330

Internformat

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS 1 BIOMIMETICS: ITS TECHNOLOGICAL AND SOCIETAL POTENTIAL 1 HERBERT STACHELBERGER, PETRA GRUBER, AND ME C. GEBESHUBER PART I MATERIAL STRUCTURE 2 BIONIC (NANO) MEMBRANES 9 JOVAN MATOVIC AND ZORAN JAKSIC 2.1 ARTIFICIAL NANOMEMBRANES 10 2.2 BIOLOGICAL NANOMEMBRANES 12 2.3 FUNCTIONALIZATION OF ARTIFICIAL NANOMEMBRANES TOWARD BIONIC STRUCTURES AT ISAS: TU WIEN 13 2.3.1 NANOMEMBRANE-BASED BIONIC STRUCTURES FOR ENERGY HARVESTING 13 2.3.2 NANOMEMBRANES AS BIONIC DETECTORS OF ELECTROMAGNETIC RADIATION 19 2.4 CONCLUSION 22 3 BIOMIMETICS IN TXIBOLOGY 25 I.C. GEBESHUBER, B.Y. MAJLIS, AND H. STACHELBERGER 3.1 INTRODUCTION: HISTORICAL BACKGROUND AND CURRENT DEVELOPMENTS 26 3.2 BIOLOGY FOR ENGINEERS 28 3.3 METHOD: THE BIOMIMICRY INNOVATION METHOD 30 3.4 RESULTS: BIOMIMETICS IN TRIBOLOGY - BEST PRACTICES AND POSSIBLE APPLICATIONS 32 3.4.1 APPLICATION OF THE BIOMIMICRY INNOVATION METHOD CONCERNING MECHANICAL WEAR 33 3.4.2 APPLICATION OF THE BIOMIMICRY INNOVATION METHOD CONCERNING SHEAR 35 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1000028364 DIGITALISIERT DURCH IMAGE 2 VIII CONTENTS 3.4.3 APPLICATION OF THE BIOMIMICRY INNOVATION METHOD CONCERNING TENSION 35 3.4.4 APPLICATION OF THE BIOMIMICRY INNOVATION METHOD CONCERNING BUCKLING, FATIGUE, FRACTURE (RUPTURE) AND DEFORMATION 35 3.4.5 APPLICATION OF THE BIOMIMICRY INNOVATION METHOD CONCERNING ATTACHMENT 37 3.5 SUMMARY AND OUTLOOK 40 4 REPTILIAN SKIN AS A BIOMIMETIC ANALOGUE FOR THE DESIGN OF DETERMINISTIC TRIBOSURFACES 51 H.A. ABDEL-AAL AND M. EL MANSORI 4.1 INTRODUCTION 52 4.2 BACKGROUND 56 4.2.1 THE PYTHON SPECIES 56 4.2.2 STRUCTURE OF SNAKE SKIN 58 4.2.3 SKINSHEDDING 59 4.3 OBSERVATION OF SHED SKIN 60 4.3.1 INITIAL OBSERVATIONS 60 4.3.2 OPTICAL MICROSCOPY OBSERVATIONS 62 4.3.3 SCAN ELECTRON MICROSCOPY OBSERVATIONS 63 4.4 METROLOGY OF THE SURFACE 69 4.4.1 TOPOGRAPHICAL METROLOGY 69 4.4.2 BEARING CURVE ANALYSIS 70 4.5 CORRELATION TO HONED SURFACES 73 4.6 CONCLUSIONS AND FUTURE OUTLOOK 77 5 MULTISCALE HOMOGENIZATION THEORY: AN ANALYSIS TOOL FOR REVEALING MECHANICAL DESIGN PRINCIPLES IN BONE AND BONE REPLACEMENT MATERIALS 81 CHRISTIAN HELLMICH, ANDREAS FRITSCH, AND LUC DORMIEUX 5.1 INTRODUCTION 84 5.2 FUNDAMENTALS OF CONTINUUM MICROMECHANICS 85 5.2.1 REPRESENTATIVE VOLUME ELEMENT 85 5.2.2 UPSCALING OF ELASTO-BRITTLE AND ELASTOPLASTIC MATERIAL PROPERTIES 86 5.3 BONE'S HIERARCHICAL ORGANIZATION 88 5.4 ELASTIC AND STRENGTH PROPERTIES OF THE ELEMENTARY COMPONENTS OF BONE: HYDROXYAPATITE, COLLAGEN, WATER 88 5.5 MULTISCALE MICROMECHANICAL REPRESENTATION OF BONE 91 5.6 EXPERIMENTAL VALIDATION OF MULTISCALE MICROMECHANICS THEORY FOR BONE 93 5.7 HOW BONE WORKS: MECHANICAL DESIGN CHARACTERISTICS OF BONE REVEALED THROUGH MULTISCALE MICROMECHANICS 96 5.8 SOME CONCLUSIONS FROM A BIOLOGICAL VIEWPOINT 98 IMAGE 3 CONTENTS IX 6 BIOINSPIRED CELLULAR STRUCTURES: ADDITIVE MANUFACTURING AND MECHANICAL PROPERTIES 105 J. STAMPFT 1 , H.E. PETTERMANN, AND R. LISKA 6.1 INTRODUCTION 105 6.2 FABRICATION OF BIOINSPIRED CELLULAR SOLIDS USING LITHOGRAPHY-BASED ADDITIVE MANUFACTURING 107 6.2.1 LASER-BASED STEREOLITHOGRAPHY 108 6.2.2 DYNAMIC MASK-BASED STEREOLITHOGRAPHY 108 6.2.3 INKJET-BASED SYSTEMS 110 6.2.4 TWO-PHOTON POLYMERIZATION I LL 6.3 PHOTOPOLYMERS FOR ADDITIVE MANUFACTURING TECHNOLOGIES 112 6.3.1 PRINCIPLES OF PHOTOPOLYMERIZATION 112 6.3.2 RADICAL AND CATIONIC SYSTEMS IN LITHOGRAPHY- BASED AMT 114 6.3.3 BIOMIMETIC, BIOCOMPATIBLE, AND BIODEGRADABLE FORMULATIONS 115 6.4 MECHANICAL PROPERTIES: MODELING AND SIMULATION 118 6.4.1 LINEAR ELASTIC BEHAVIOR 118 6.4.2 NONLINEAR RESPONSE 119 6.4.3 SAMPLE SIZE AND EFFECTIVE BEHAVIOR 119 6.5 CONCLUSION 121 PART II FORM AND CONSTRUCTION 7 BIOMIMETICS IN ARCHITECTURE [ARCHITEKTURBIONIK] 127 PETRA GRUBER 7.1 INTRODUCTION 127 7.2 HISTORY: DIFFERENT APPROACHES 128 7.2.1 ANALOGY AND CONVERGENCE 129 7.2.2 STRATEGIC SEARCH FOR THE OVERLAPS BETWEEN ARCHITECTURE AND NATURE 130 7.3 STRATEGIES: WHAT IS TRANSFERRED AND HOW IS IT DONE? 131 7.3.1 WHAT IS TRANSFERRED? 131 7.3.2 METHODS 131 7.4 APPLICATION FIELDS: SUCCESSFUL EXAMPLES 134 7.4.1 EMERGENCE AND DIFFERENTIATION: MORPHOGENESIS 134 7.4.2 INTERACTIVITY 135 7.4.3 DYNAMIC SHAPE 135 7.4.4 INTELLIGENCE 136 7.4.5 ENERGY EFFICIENCY 136 7.4.6 MATERIAL/STRUCTURE/SURFACE 137 7.4.7 INTEGRATION 137 7.5 CASE STUDIES 138 7.5.1 BIOMIMETICS DESIGN EXERCISE 138 IMAGE 4 X CONTENTS 7.5.2 BIOMIMETICS DESIGN PROGRAMMES, WORKSHOPS AND STUDIES 140 7.6 FUTURE FIELDS, AIMS AND CONCLUSION 144 7.6.1 AIMS 144 7.6.2 CONSIDERATIONS ABOUT FUTURE DEVELOPMENTS 145 8 BIOMORPHISM IN ARCHITECTURE: SPECULATIONS ON GROWTH AND FORM 149 DOERTE KUHLMANN 8.1 INTRODUCTION 149 8.2 THE ESSENCE OF NATURE 150 8.3 NATURE AS A SOURCE FOR FORM 152 8.4 NATURAL PROCESSES 153 8.5 ORGANIC VERSUS "MECHANICAL" FORM 156 8.6 BIONICS AND CYBORGS 159 8.7 ECOLOGY 162 8.8 FROM FRACTALS TO CATASTROPHIES 165 8.9 FORM FOLLOWS FUNCTION 167 8.10 THE CONCEPT OF ORGANIC UNITY 171 8.11 CONCLUSION 174 9 FRACTAL GEOMETRY OF ARCHITECTURE 179 WOLFGANG E. LORENZ 9.1 FRACTAL CONCEPTS IN NATURE AND ARCHITECTURE 179 9.1.1 FROM THE LANGUAGE OF FRACTALS TO CLASSIFICATION 179 9.2 FRACTALS: A DEFINITION FROM A MATHEMATICAL AND AN ARCHITECTURAL POINT OF VIEW 182 9.2.1 ROUGHNESS AND LENGTH MEASUREMENT 182 9.2.2 SCALE RANGE AND DISTANCE 184 9.2.3 SELF-SIMILARITY: AN IMPORTANT ATTRIBUTE OF FRACTALS 184 9.2.4 ARCHITECTURAL EXAMPLES 186 9.2.5 DEVELOPED THROUGH ITERATION 187 9.2.6 DIFFERENCES BETWEEN ARCHITECTURAL AND MATHEMATICAL FRACTALS 189 9.2.7 FRACTALS AS A DESIGN AID 189 9.2.8 FRACTALS ARE COMMON TO NATURE 190 9.2.9 THE FACTOR CHANCE 191 9.3 FROM SIMULATION TO MEASUREMENT 192 9.3.1 CURDLING 192 9.3.2 FRACTAL DIMENSION 194 9.3.3 PERCEPTION AND DISTANCE 196 9.4 FRACTAL DIMENSION AND ARCHITECTURE 196 9.4.1 FRACTAL DIMENSION AND APPROACHING A BUILDING 197 9.4.2 RESULTS OF MEASUREMENT 198 9.5 CONCLUSIONS AND OUTLOOK 199 IMAGE 5 CONTENTS XI PART III INFORMATION AND DYNAMICS 10 BIOMIMETICS IN INTELLIGENT SENSOR AND ACTUATOR AUTOMATION SYSTEMS 203 DIETMAR BRUCKNER, DIETMAR DIETRICH, GERHARD ZUCKER, AND BRIT MUELLER 10.1 RESEARCH FIELD 204 10.2 AUTOMATION 204 10.3 INTELLIGENCE AND COMMUNICATION 206 10.4 OPEN PROBLEMS: CHALLENGES IN RESEARCH 207 10.5 INTELLIGENCE OF BIONIC SYSTEMS 209 10.5.1 HIERARCHICAL MODEL CONCEPTION 209 10.5.2 STATISTICAL METHODS 210 10.5.3 DEFINITION OF INTELLIGENCE 211 10.5.4 CHOICE OF THE RIGHT MODEL 212 10.5.5 TOP-DOWN METHODOLOGY 212 10.5.6 A UNITARY MODEL 213 10.5.7 DIFFERENTIATION BETWEEN FUNCTION, BEHAVIOR, AND PROJECTION 213 10.5.8 INDISPENSABLE INTERDISCIPLINARITY 214 10.6 THE PSYCHOANALYTICAL MODEL 214 10.7 CONCLUSION 217 11 TECHNICAL REBUILDING OF MOVEMENT FUNCTION USING FUNCTIONAL ELECTRICAL STIMULATION 219 MARGIT GFOEHLER 11.1 INTRODUCTION 219 11.2 PRINCIPLE 220 11.3 ACTUATION 220 11.3.1 STIMULATION SIGNAL 222 11.3.2 ELECTRODES 223 11.4 STIMULATORS 224 11.5 CONTROL 225 11.5.1 MODELING/SIMULATION 225 11.5.2 CONTROL SYSTEMS 227 11.6 SENSORS 229 11.6.1 ARTIFICIAL SENSORS 229 11.6.2 NATURAL SENSORS IN THE PERIPHERAL NERVOUS SYSTEM 229 11.6.3 VOLITIONAL BIOLOGICAL SIGNALS 230 11.7 APPLICATIONS FOR THE LOWER LIMB 231 11.7.1 CYCLING 231 11.7.2 ROWING 239 11.7.3 GAIT 241 11.8 APPLICATIONS FOR THE UPPER LIMB 242 11.9 OUTLOOK 243 REFERENCES 244 IMAGE 6 XII CONTENTS 12 IMPROVING HEARING PERFORMANCE USING NATURAL AUDITORY CODING STRATEGIES 249 FRANK RATTAY 12.1 THE HAIR CELL TRANSFORMS MECHANICAL INTO NEURAL SIGNALS 249 12.2 THE HUMAN EAR 251 12.3 PLACE THEORY VERSUS TEMPORAL THEORY 253 12.4 NOISE-ENHANCED AUDITORY INFORMATION 253 12.5 AUDITORY NEURAL NETWORK SENSITIVITY CAN BE TESTED WITH ARTIFICIAL NEURAL NETWORKS 257 12.6 COCHLEAR IMPLANTS VERSUS NATURAL HEARING 258 12.7 DISCUSSION 259 12.8 CONCLUSION 260 REFERENCES 260 INDEX 263
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