Verfügbarkeit: Fundamentals of inkjet printing

Fundamentals of inkjet printing: the science of inkjet and droplets

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Bibliographische Detailangaben
Weitere Verfasser:	Hoath, Stephen D. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH Verlag GmbH & Co. KGaA [2016]
Schlagworte:	Tintenstrahldruck Inkjet Process Engineering Oberflächen- u. Kolloidchemie Materials Science Chemische Verfahrenstechnik Surface & Colloid Chemistry Materialwissenschaften Prozesssteuerung Dünne Schichten, Oberflächen u. Grenzflächen Chemistry Chemical Engineering Tintenstrahltechnik Thin Films, Surfaces & Interfaces Chemie Aufsatzsammlung
Online-Zugang:	Verlag Inhaltsverzeichnis
Beschreibung:	XXII, 449 Seiten Illustrationen, Diagramme (teilweise farbig)
ISBN:	9783527337859 9783527684724

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MARC


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245	1	0	\|a Fundamentals of inkjet printing \|b the science of inkjet and droplets \|c edited by Stephen D. Hoath
264		1	\|a Weinheim \|b Wiley-VCH Verlag GmbH & Co. KGaA \|c [2016]
264		4	\|c © 2016
300			\|a XXII, 449 Seiten \|b Illustrationen, Diagramme (teilweise farbig)
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653			\|a Inkjet
653			\|a Process Engineering
653			\|a Oberflächen- u. Kolloidchemie
653			\|a Materials Science
653			\|a Chemische Verfahrenstechnik
653			\|a Surface & Colloid Chemistry
653			\|a Materialwissenschaften
653			\|a Prozesssteuerung
653			\|a Dünne Schichten, Oberflächen u. Grenzflächen
653			\|a Chemistry
653			\|a Chemical Engineering
653			\|a Tintenstrahltechnik
653			\|a Thin Films, Surfaces & Interfaces
653			\|a Chemie
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689	0	0	\|a Tintenstrahldruck \|0 (DE-588)7658522-0 \|D s
689	0		\|5 DE-604
700	1		\|a Hoath, Stephen D. \|0 (DE-588)1082150835 \|4 edt
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Datensatz im Suchindex

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adam_text	CONTENTS UST OF CONTRIBUTORS X V PREFACE X X I INTRODUCTORY REMARKS 1 *** * . HUTCHINGS, GRAHAM D. MARTIN, AND STEPHEN D. HOATH INTRODUCTION 1 DROP FORMATION: CONTINUOUS INKJET AND DROP-ON-DEMAND 2 SURFACE TENSION AND VISCOSITY 6 DIMENSIONLESS GROUPS IN INKJET PRINTING 8 LENGTH AND TIME SCALES IN INKJET PRINTING 9 THE STRUCTURE OF THIS BOOK 11 SYMBOLS USED 11 REFERENCES 12 2 FLUID MECHANICS FOR INKJET PRINTING 13 EDWARD P.FRAN 2.1 INTRODUCTION 13 2.2 FLUID MECHANICS 13 2.3 DIMENSIONS AND UNITS 14 2.4 FLUID PROPERTIES 15 2.4.1 DENSITY 15 2.4.2 VISCOSITY 16 2.4.2.1 NEWTONIAN FLUIDS 17 2.4.2.2 NON-NEWTONIAN FLUIDS 17 2.4.3 SURFACE TENSION 18 2.5 FORCE, PRESSURE * VELOCITY 19 2.6 FLUID DYNAMICS 20 2.6.1 EQUATIONS OF FLUID DYNAMICS 20 2.6.1.1 CONSERVATION OF MASS 21 2.6.1.2 CONSERVATION OF MOMENTUM 21 2.6.1.3 CONSERVATION OF ENERGY 22 2.6.2 SOLVING THE EQUATIONS OF FLUID DYNAMICS 24 2.7 COMPUTATIONAL FLUID DYNAMICS 25 2.7.1 PREPROCESOR 26 2.7.2 SOLVER 28 2.7.3 POSTPROCESSOR 28 2.8 INKJET SYSTEMS 29 2.8.1 INKJET MODELING CHALLENGES 31 2.8.1.1 FREE-SURFACE ANALYSIS 32 2.8.1.2 FLUID-STRUCTURE INTERACTION 35 2.8.1.3 PHASE CHANGE ANALYSIS 35 2.8.1.4 IN K-M E D IA INTERACTION 35 2.8.1.5 NON-NEWTONIAN FLUIDS 35 2.8.2 INKJET PROCESSES 36 2.8.2.1 DOD DROPLET GENERATION 36 2.822 CIJ DROPLET GENERATION 43 2.8.2.3 CROSSTALK 45 2.8.2.4 AERODYNAMIC EFFECTS 47 2.8.2.5 IN K-M E D IA INTERACTIONS 48 SUMMARY 52 ACKNOWLEDGMENTS 53 REFERENCES 53 3 INKJET PRINTHEADS 57 NAOKI MORITA, AMOL A. KHALATE, AREND M. VAN BUUL, AND HERMAN WIJSHOFF 3.1 D E RM A L VERSUS PIEZOELECTRIC INKJET PRINTING 57 3.2 D E RM A L INKJET 58 3.2.1 BOILING MECHANISM 58 3.2.1.1 ^E O RE TIC A L MODEL 58 3.2.1.2 OBSERVATION OF BOILING BUBBLE BEHAVIOR 59 3.2.2 PRINTHEAD STRUCTURE 63 3.2.3 JETTING CHARACTERISTICS OF TIJS 64 3.2.3.1 INPUT POWER CHARACTERISTICS AND HEAT CONTROL OF TIJS 64 3.2.3.2 FREQUENCY RESPONSE AND CROSSTALK CONTROL 65 3.2.4 PROBLEMS ASSOCIATED WITH PRESSURE AND HEAT GENERATED IN TIJS 66 3.2.4.1 CAVITATION DAMAGE ON THE HEATER SURFACE 66 3.2.4.2 INK RESIDUE SCORCHING (KOGATION) ON THE HEATER SURFACE 67 3.2.5 EVAPORATION OF WATER IN AQUEOUS INK 69 3.2.5.1 APPROACHES TO COMPENSATE FOR C EVAPORATION 69 3.2.5.2 MEASUREMENT OF PHYSICAL PROPERTIES OF FLYING DROPLETS 70 3.3 FUTURE PROSPECTS FOR INKJETS 72 3.3.1 PRINTING SPEED LIM IT ESTIMATED BY DROP BEHAVIOR 72 3.3.2 CONTROL OF BLEEDING CAUSED BY HIGH-SPEED DRYING 72 3.4 CONTINUOUS INKJET (CIJ) 74 3.5 EXAMPLES AND PROBLEMS (TIJ) 76 3.5.1 EXAMPLE 76 3.5.2 PROBLEM 76 3.6 3.6.1 3.6.2 3.6.3 3.6.3.1 3.6.4 3.6.4.1 3.6.4.2 3.6.5 4 41 4.1.1 4.1.2 4 9 4.2.1 499 4.23 4.2.3.1 49 4 9 4.3 4.3.1 4.3.1.1 4.3.1.2 4.3.1.3 4.4 4.4.1 4.4.2 5 5.1 5.2 5.3 5.4 5.5 5.6 PIEZO INKJET PRINTHEAD 78 INTRODUCTION 78 WORKING PRINCIPLE 79 INK CHANNEL BEHAVIOR 82 RESIDUAL OSCILLATIONS 82 CONTROL OF INKJET PRINTHEAD 84 CONSTRAINED ACTUATION PULSE DESIGN 84 COMPLEX ACTUATION PULSE DESIGN: FEEDFORWARD CONTROL APPROACH 86 INDUSTRIAL APPLICATIONS 88 REFERENCES 89 DROP FORMATION IN INKJET PRINTING 93 THEO DRIESSEN AND ROGER JEURISSEN INTRODUCTION 93 CONTINUOUS INKJET PRINTING 93 DROP-ON-DEMAND INKJET PRINTING 94 DROP FORMATION IN CONTINUOUS INKJET PRINTING 95 RAYLEIGH-PLATEAU INSTABILITY 96 SATELLITE FORMATION 99 FINAL DROPLET VELOCITY 99 CAPILLARY DECELERATION 99 ACCELERATION DUE TO ADVECTION 101 ANALYSIS OF DROPLET FORMATION IN DROP-ON-DEMAND INKJET PRINTING 102 THE SCENARIO OF THE ANALYZED DROPLET FORMATION 102 HEAD DROPLET FORMATION 103 TAIL FORMATION 105 PINCH-OFF AND TAIL BREAKUP 108 WORKED EXAMPLES 111 TAIL FORMATION FOR THE PURELY INERTIAL CASE 1 1 1 DISPERSION RELATION OF THE RAYLEIGH-PLATEAU INSTABILITY 112 ACKNOWLEDGMENT 114 REFERENCES 7/4 POLYMERS IN INKJET PRINTING 117 JOSEPH S.R. WHEELER AND STEPHEN G. YEOTES INTRODUCTION 117 POLYMER DEFINITION 117 SOURCE- AND ARCHITECTURE-BASED POLYMER CLASSIFICATION 118 MOLECULAR WEIGHT AND SIZE 118 POLYMER SOLUTIONS 122 EFFECT OF STRUCTURE AND PHYSICAL FORM ON INKJET FORMULATION PROPERTIES 124 ZIMM INTERPRETATION FOR POLYMERS IN HIGH SHEAR ENVIRONMENTS 125 5.7 5.8 PRINTABILITY OF POLYMER-CONTAINING INKJET FLUIDS 126 5.9 SIMULATION OF THE INKJET PRINTING OF HIGH-MOLECULAR-WEIGHT POLYMERS 129 5.10 MOLECULAR WEIGHT STABILITY OF POLYMERS DURING DOD INKJET PRINTING 130 5.11 MOLECULAR WEIGHT STABILITY OF POLYMERS DURING CIJ PRINTING 132 5.12 MOLECULAR WEIGHT STABILITY OF ASSOCIATING POLYMERS DURING DOD INKJET PRINTING 134 5.13 CASE STUDIES OF POLYMERS IN INKJET FORMULATION 135 5.13.1 ROLE OF POLYMER ARCHITECTURE 135 5.13.2 INKJET PRINTING OFPEDOT * .PSS 136 5.13.3 INKJET PRINTING OF POLYMER-GRAPHENE AND CNT COMPOSITES 136 REFERENCES 137 6 COLLOID PARTICLES N INK FORMULATIONS 141 ISAOHMED A. KAU A, HUAI NYM YOW, HUAGU.* ZHANG, 0 VER J. CAYRE. AND SIMON BIGGS 6.1 INTRODUCTION 141 6.1.1 COLLOIDS 141 6.1.2 INKJET (COMPLEX) FLUIDS 141 6.2 DYES VERSUS PIGMENT INKS 142 6.3 STABILITY OF COLLOIDS 143 6.3.1 DLVO THEORY 144 6.3.2 VAN DER WAALS ATTRACTIVE FORCE 144 6.3.3 ELECTROSTATIC REPULSIVE FORCE 145 6.3.4 STABILIZATION OF COLLOIDAL SYSTEMS 146 6.4 PARTICLE-POLYMER INTERACTIONS 149 6.4.1 STERIC STABILIZATION 149 6.4.2 BRIDGING FLOCCULATION ISO 6.4.3 DEPLETION FLOCCULATION 151 6.5 EFFECT OF OTHER INK COMPONENTS ON COLLOIDAL INTERACTIONS 152 6.5.1 SURFACTANTS 152 6.5.2 VISCOSITY MODIFIERS 153 6.5.3 HUMECTANTS 153 6.5.4 GLYCOL ETHERS 154 6.5.5 STORAGE - BUFFERS AND BIOCIDES 154 6.5.6 OTHER ADDITIVES 155 6.6 CHARACTERIZATION OF COLLOIDAL DISPERSIONS 155 6.6.1 DYNAMIC LIGHT SCATTERING (DLS) 155 6.6.2 ELECTROPHORETIC M OBILITY (ZETA POTENTIAL) 156 6.6.3 RHEOLOGY 157 6.6.4 BULK COLLOIDAL DISPERSION 157 6.6.5 JETTING 159 6.7 SEDIMENTATION/SETTLING 160 6.7.1 SEDIMENTATION CHARACTERIZATION TECHNIQUES 162 8 . 2.1 8 . 2.2 8.2.3 8.3 8.4 8.4.1 8.4.2 8.4.3 8.4.3.1 DROPS ON SUBSTRATES 199 SUNGJUNE JUNG, HYUNG HWANG AND SEOK HYUN HONG INTRODUCTION 199 EXPERIMENTAL OBSERVATION OF NEWTONIAN DROP IMPACT ON WETTABLE SURFACE 201 EFFECT OF INITIAL SPEED ON DROP IMPACT AND SPREADING 202 EFFECT OF SURFACE WETTABILITY ON DROP IMPACT AND SPREADING 206 EFFECT OF FLUID PROPERTIES ON DROP IMPACT AND SPREADING 208 DIMENSIONAL ANALYSIS: BUCKINGHAM PI TE O R E M 209 DROP IMPACT DYNAMICS: THE MAXIMUM SPREADING DIAMETER 211 VISCOUS DISSIPATION DOMINATES SURFACE TENSION 213 THE FLATTENED-PANCAKE MODEL 214 THE KINETIC ENERGY TRANSFERS COMPLETELY INTO SURFACE ENERGY 215 EVAPORATION: A SCALING EXPONENT OF THE RADIUS 216 REFERENCES 218 Q COALESCENCE AND LINE FORMATION 219 WEN-KAI HSIAO AND ELEANOR S. BETTOR) 9.1 IMPLICATION OF DROP COALESCENCE ON PRINTED IMAGE FORMATION 219 9.2 IMPLICATION OF DROP COALESCENCE ON FUNCTIONAL AND 3D PRINTING 220 9.3 COALESCENCE OF INKJET-PRINTED DROPS 222 9.3.1 COALESCENCE OF A PAIR OF LIQUID DROPS ON SURFACE 222 9.3.2 COALESCENCE W ITH DROP IMPACT 226 9.3.3 COALESCENCE OF A PAIR OF INKJET-PRINTED DROPS 229 6.8 CONCLUSIONS/OUTLOOK 165 REFERENCES 66 7 JETTING SIMULATIONS 169 NEIL F. MORRISON, GAIRE IHROY. AND O VER G. HAHEN 7.1 INTRODUCTION 169 7.2 KEY CONSIDERATIONS FOR MODELLING 172 7.3 ONE-DIMENSIONAL MODELLING 177 7.3.1 THE LONG-WAVELENGTH APPROXIMATION 177 7.3.2 A SIMPLE CIJ MODEL 178 7.3.3 ERROR ANALYSIS FOR SIMPLE JETTING 180 7.34 VALIDATION OF THE MODEL BY RAYLEIGHS E O R* 180 7.3.5 EXPLORING THE PARAMETER SPACE 183 7.3.6 A NUMERICAL EXPERIMENT 184 7-4 AXISYMMETRIC MODELLING 185 7.4.1 CONTINUOUS INKJET 186 7.4.2 DROP-ON-DEMAND 189 7.5 THREE-DIMENSIONAL SIMULATION 194 REFERENCES 196 9.3.3.1 EXPERIMENTAL SETUP 230 9.3.3.2 NECKING STAGE DYNAMICS * 9.3.3.3 DISCUSSION 234 9.3.3.4 SUMMARY 234 9.4 2D FEATURES AND LINE PRINTING 235 9.4.1 MODEL OFD ROP-B EAD COALESCENCE 236 9.4.2 EXPERIMENT AND OBSERVATIONS 237 9.4.2.1 EFFECT OF DROP SPACING 238 9.4.2.2 EFFECT OF DROP DEPOSITION INTERVAL 242 9.4.3 STABILITY REGIMES AND DISCUSSION 244 9.4.4 SUMMARY 246 9.5 SUMMARY AND CONCLUDING REMARKS 247 9.6 WORKING QUESTIONS 248 REFERENCES 249 10 DROPLETS DRYING ON SURFACES 251 EMMO TALBOT, COLIN BAIRI/ RAFDE DIER, W OUTERSEMPELS, ANDJAN VERMONT 10.1 OVERVIEW 251 10.2 EVAPORATION OF SINGLE SOLVENTS 252 10.3 EVAPORATION OF MIXED SOLVENTS 259 10.3.1 MARANGONI FLOWS 260 10.3.1.1 D E RM A L MARANGONI FLOWS 260 10.3.1.2 SOLUTAL MARANGONI FLOWS * 10.4 PARTICLE TRANSPORT IN DRYING DROPLETS 263 10.4.1 THE COFFEE RING EFFECT 263 10.4.1.1 DISADVANTAGES TO THE RING-SHAPED PATTERN 265 10.4.1.2 EXPLOITING THE COFFEE RING EFFECT 266 10.4.1.3 AVOIDING THE COFFEE RING EFFECT 267 10.4.2 PARTICLE MIGRATION 268 10.5 DRYING OF COMPLEX FLUIDS 268 10.5.1 CONTACT LINE M OTION 269 10.5.2 PARTICLE CHARACTER 269 10.5.3 SEGREGATION OF SOLIDS 272 10.5.4 LOCAL ENVIRONMENT 273 10.5.5 SUBSTRATE PATTERNING 273 10.5.6 DESTABILIZATION OF COLLOIDS DURING DRYING 274 10.6 PROBLEMS 274 REFERENCES 275 11 SIMULATION OF DROPS ON SURFACES 281 IRKCTW UESON AND KRZYSZTOF J KUBIAK 11.1 INTRODUCTION 281 11.2 CONTINUUM-BASED MODELING OF DROP DYNAMICS 282 11.2.1 FINITE ELEMENT ANALYSIS 282 11.2.2 FINITE ELEMENT BOUNDARY CONDITIONS FOR FEE SURFACES 283 11.2.3 MOVING CONTACT-LINE PROBLEM 284 11.2.3.1 CONTACT ANGLE AS A BOUNDARY CONDITION 285 11.2.3.2 AN INTERFACE FORMATION MODEL 285 11.2.4 THE VOLUME OF FLUID METHOD 286 11.3 CHALLENGING CONTACT ANGLE PHENOMENA 288 11.3.1 APPARENT CONTACT ANGLES 288 11.3.2 CONTACT ANGLE HYSTERESIS 289 11.3.3 DYNAMIC CONTACT ANGLES 291 11.3.4 DYNAMIC CONTACT ANGLES IN NUMERICAL SIMULATIONS 292 11.3.5 RESTING TIME EFFECT 293 11.4 DIFFUSE-INTERFACE MODELS 294 11.5 LATTICE BOLTZMANN SIMULATIONS OF DROP DYNAMICS 296 11.5.1 BACKGROUND AND ADVANTAGES OF THE METHOD 296 11.5.2 MULTIPHASE FLOW AND WETTING 299 11.5.3 CAPTURING CONTACT ANGLE HYSTERESIS 301 11.5.4 ROUGH SURFACES 305 11.5.5 CHEMICALLY INHOMOGENEOUS SURFACES 306 11.6 CONCLUSION AND OUTLOOK 307 ACKNOWLEDGMENT 309 REFERENCES 309 2 VISUALIZATION AND MEASUREMENT 313 KYE SI KWON, LISONG YANG, GRAHAM D. MARTIN/ RAFAEL COSTREJON-GORCIO/ ALFONSO A. CASTREJON-PITO, A R ID I RAFAEL COSTREJON-PITA 12.1 INTRODUCTION 313 12.2 BASIC IMAGING OF DROPLETS AND JETS 314 12.3 STROBE ILLUM INATION 317 12.4 HOLOGRAPHIC METHODS 320 12.5 CONFOCAL MICROSCOPY 325 12.6 IMAGE ANALYSIS 330 12.6.1 BINARY IMAGE ANALYSIS METHOD 330 12.6.1.1 EDGE DETECTION METHOD (DROPLET VOLUME CALCULATION USING LABVIEW) 331 12.6.1.2 EDGE DETECTION METHOD (^RE S H O LD DETECTION USING M ATLAB) 335 REFERENCES 336 13 INKJET FLUID CHARACTERIZATION 339 F4AACO M R. 1 ** * DAMIEN C .V ADM * ANDTRI R.**ADHAR 13.1 INTRODUCTION 339 13.2 INFLUENCE OF INK PROPERTIES ON PRINTHEAD AND JETTING 340 13.3 THE RHEOLOGY OF INKJET FLUIDS 341 13.3.1 BASE VISCOSITY 342 13.3.2 VISCOELASTICITY (LVE) 344 13.4 THE MEASUREMENT OF LINEAR VISCOELASTICITY FOR INKJET FLUIDS 347 13.5 MEASUREMENT OF EXTENSIONAL BEHAVIOR FOR INKJET FLUIDS 351 13.6 LINKING INKJET RHEOLOGY TO PRINTHEAD PERFORMANCE 356 13.7 CONCLUSIONS 361 ACKNOWLEDGMENTS 362 REFERENCES 362 14 SURFACE CHARACTERIZATION 365 RONAN DAV 14.1 INTRODUCTION 365 14.1.1 UNDERSTANDING SURFACE CHARACTERIZE^ 366 14.2 PROCESS MAP TO DEFINE CHARACTERIZATION NEEDS 367 14.2.1 PREJETTING SURFACE QUALITY 367 14.2.1.1 EXAMPLE 1: GRAPHICAL PRINTING 367 14.2.1.2 EXAMPLE 2: PRINTED ELECTRONICS 370 14.2.1.3 SUMMARY 373 14.2.2 DROP IMPACT BEHAVIOR 373 14.2.2.1 EXAMPLE 1: 3D PRINTING 374 14.2.2.2 EXAMPLE 2: REACTIVE INKJET PRINTING AND H IGH -^ROU GH PU T SCREENING 375 14.2.2.3 SUMMARY 376 14.2.3 DELIVERY OF FUNCTION 376 14.2.3.1 EXAMPLE 1: GRAPHICAL PRINTING 377 14.2.3.2 EXAMPLE 2: ADVANCED FUNCTIONAL MATERIALS 378 14.2.4 FINAL FUNCTIONALIZED SURFACE 379 14.2.5 LONG-TERM BEHAVIOR 380 14.2.5.1 EXAMPLE 1: PAPER 380 14.2.5.2 EXAMPLE 2: PROTEIN PRINTING 380 14.2.5.3 EXAMPLE 3: CURED INK ADHESION 381 14.3 SURFACE CHARACTERIZATION TECHNIQUES 381 14.3.1 CHEMICAL ANALYSIS OF SURFACES 381 14.3.1.1 SURFACE TENSION AND WETTABILITY STUDIES 381 14.3.1.2 LIQUID DROPS ON SOLID SURFACES 382 14.3.1.3 EXAMPLE OF CONTACT ANGLE MEASUREMENT 385 14.3.1.4 LIQUID DROPS ON LIQUID SURFACES 385 14.3.1.5 ROLE OF SURFACE CHEMISTRY ON IM BIBITION 386 14.3.2 MECHANICAL TESTING OF SURFACES 387 14.3.2.1 ATOMIC FORCE MICROSCOPY (AFM) 388 14.3.2.2 NANOINDENTATION 388 14.3.3 ELECTRICAL ANALYSIS OF SURFACES 389 14.3.4 OPTICAL ANALYSIS 390 14.3.5 BIOLOGICAL ANALYSIS 393 14.4 CONCLUSION 394 14.5 QUESTIONS TO CONSIDER 394 REFERENCES 395 15 APPLICATIONS IN INKJET PRINTING 397 PATRICKJ. SMITH QMDJONATHAN STRINGER 15.1 INTRODUCTION 397 15.2 GRAPHICS 398 15.3 INKJET PRINTING FOR REE-DIM ENSIONAL APPLICATIONS 399 15.4 INORGANIC MATERIALS 404 15.4.1 METALLIC INKS FOR CONTACTS AND INTERCONNECTS 404 15.4.2 CERAMIC INKS 405 15.4.3 QUANTUM DOTS 406 15.5 ORGANIC MATERIALS 407 15.6 BIOLOGICAL MATERIALS 410 15.6.1 BIOMACROMOLECULES FOR ANALYSIS AND SENSING 411 15.6.2 TISSUE ENGINEERING 412 REFERENCES 414 16 INKJET TECHNOLOGY: WHAT N EXT 419 GRAHAM D. MARTIN AND MIKE WILLIS 16.1 ACHIEVEMENTS SO FAR 419 16.2 THE INKJET PRINT-HEAD AS A DELIVERY DEVICE 420 16.3 LIMITATIONS OF INKJET TECHNOLOGY 421 16.3.1 JETTING FLUID CONSTRAINTS 421 16.3.2 CONTROL OF DROP VOLUME 421 16.3.3 VARIATIONS IN DROP VOLUME 422 16.3.4 JET DIRECTIONALITY AND DROP PLACEMENT ERRORS 423 16.3.5 AERODYNAMIC EFFECTS 424 16.3.6 IMPACT AND SURFACE WETTING EFFECTS 424 16.4 TODAYS DOMINANT TECHNOLOGIES AND LIMITATIONS 424 16.4.1 THERMAL DROP-ON-DEMAND INKJET 425 16.4.2 PIEZOELECTRIC DROP-ON-DEMAND INKJET 427 16.5 OTHER CURRENT TECHNOLOGIES 428 16.5.1 CONTINUOUS INKJET 428 16.5.2 ELECTROSTATIC DROP-ON-DEMAND 429 16.5.3 ACOUSTIC DROP EJECTION 429 16.6 EMERGING TECHNOLOGIES AND TECHNIQUES 431 16.6.1 STREAM 431 16.6.2 PRINT-HEAD MANUFACTURING TECHNIQUES 431 16.6.3 FLEXTENSIONAL 434 16.6.4 TONEJET 435 16.6.5 INK RECIRCULATION 435 16.6.6 INDIRECT INKJET PRINTING 436 16.6.7 WIDE FORMAT PRINTING 438 16.6.8 FAILURE DETECTION 438 16.7 FUTURE TRENDS FOR PRINT-HEAD MANUFACTURING 439 16.8 FUTURE REQUIREMENTS AND DIRECTIONS 440 16.8.1 CUSTOMIZATION OF PRINT-HEADS FOR NONGRAPHICS APPLICATIONS 440 16.8.2 16.8.3 16.8.4 16.8.5 16.8.6 16.9 REDUCE SENSITIVITY OF JETTING TO INK CHARACTERISTICS 440 HIGHER VISCOSITIES 441 HIGHER STABILITY AND RELIABILITY 441 DROP VOLUME REQUIREMENTS 442 LOWER COSTS 442 SUMMARY OF STATUS OF INKJET TECHNOLOGY 443 REFERENCES 444 INDEX 445
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discipline	Chemie / Pharmazie Maschinenbau / Maschinenwesen Informatik
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genre_facet	Aufsatzsammlung
id	DE-604.BV043344639
illustrated	Illustrated
indexdate	2024-08-01T10:51:53Z
institution	BVB
isbn	9783527337859 9783527684724
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-028764447
oclc_num	951539912
open_access_boolean
owner	DE-11 DE-703 DE-862 DE-BY-FWS
owner_facet	DE-11 DE-703 DE-862 DE-BY-FWS
physical	XXII, 449 Seiten Illustrationen, Diagramme (teilweise farbig)
publishDate	2016
publishDateSearch	2016
publishDateSort	2016
publisher	Wiley-VCH Verlag GmbH & Co. KGaA
record_format	marc
spellingShingle	Fundamentals of inkjet printing the science of inkjet and droplets Tintenstrahldruck (DE-588)7658522-0 gnd
subject_GND	(DE-588)7658522-0 (DE-588)4143413-4
title	Fundamentals of inkjet printing the science of inkjet and droplets
title_auth	Fundamentals of inkjet printing the science of inkjet and droplets
title_exact_search	Fundamentals of inkjet printing the science of inkjet and droplets
title_full	Fundamentals of inkjet printing the science of inkjet and droplets edited by Stephen D. Hoath
title_fullStr	Fundamentals of inkjet printing the science of inkjet and droplets edited by Stephen D. Hoath
title_full_unstemmed	Fundamentals of inkjet printing the science of inkjet and droplets edited by Stephen D. Hoath
title_short	Fundamentals of inkjet printing
title_sort	fundamentals of inkjet printing the science of inkjet and droplets
title_sub	the science of inkjet and droplets
topic	Tintenstrahldruck (DE-588)7658522-0 gnd
topic_facet	Tintenstrahldruck Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33785-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028764447&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hoathstephend fundamentalsofinkjetprintingthescienceofinkjetanddroplets

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