3D industrial printing with polymers:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Beverly, MA
Scrivener Publishing
2019
Hoboken Wiley |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | xii, 326 pages illustrations |
| ISBN: | 9781119555261 1119555264 |
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| 246 | 1 | 0 | |a Three D industrial printing with polymers |
| 246 | 1 | 0 | |a Industrial printing with polymers |
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| 653 | 0 | |a Plastics / Industrial applications | |
| 653 | 0 | |a Polymers / Industrial applications | |
| 653 | 0 | |a Manufacturing processes | |
| 653 | 0 | |a Plastics / Industrial applications | |
| 653 | 0 | |a Polymers / Industrial applications | |
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Datensatz im Suchindex
| _version_ | 1804179292153708544 |
|---|---|
| adam_text | Contents Preface xi 1 1 Methods of 3D Printing 1.1 History 1.1.1 Recently Developed Materials for 3D Printing 1.1.2 Shrinkage Compensation 1.2 Basic Principles 1.2.1 4D Printing 1.3 Uses and Applications 1.3.1 Heat Exchangers 1.3.2 3D Plastic Model 1.3.3 Gradient Refractive Index Lenses 1.3.4 Photoformable Composition 1.3.5 Comb Polymers 1.3.6 Post-Processing Infiltration 1.3.7 Sensors and Biosensors 1.4 Magnetic Separation 1.5 Rapid Prototyping 1.5.1 Variants of Rapid Prototyping 1.5.2 3D Microiluidic Channel Systems 1.5.3 Aluminum and Magnesium Cores 1.5.4 Cellular Composites L5.5 Powder Compositions 1.5.6 Organopolysiloxane Compositions 1.5.7 Thermoplastic Powder Material 1.5.8 Plasticizer-Assisted Sintering 1.5.9 Radiation-Curable Resin Composition 1.6 Solution Mask Liquid Lithography 1.7 Vat Polymerization 1.7.1 Poly(dimethyl siloxane)-Based Photopolymer 1.8 Hot Lithography 2 5 5 9 10 10 10 10 11 13 13 14 16 19 20 22 24 24 25 25 26 29 29 29 33 34 35 37
vi Contents 1.9 Ambient Reactive Extrusion 1.10 Micromanufacturing Engineering 1.11 Analytical Uses 1.11.1 Gas Sensors 1.12 Chemical Engineering 1.12.1 Gas Separation 1.12.2 Hierarchical Monoliths for Carbon Monoxide Methanation 1.13 Rotating Spinnerets 1.14 Objects with Surface Microstructures 1.15 Lightweight Cellular Composites 1.16 Textiles 1.16.1 3D Printed Polymers Combined with Textiles 1.16.2 Mechanical and Electrical Contacting 1.16.3 Soft Electronic Textiles 1.16.4 4D Textiles References 37 38 38 38 39 41 42 43 45 46 47 47 47 48 50 51 2 Polymers 61 2.1 61 63 64 65 66 67 70 73 73 74 74 75 76 77 78 79 81 83 85 85 88 91 94 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 Polymer Matrix Composites 2.1.1 Biocomposite Filaments 2.1.2 Nanocomposites 2.1.3 Nanowires 2.1.4 Fiber Reinforced Polymers 2.1.5 Carbon Fiber Polymer Composites 2.1.6 FDM Printing 2.1.7 Powder Bed and Inkjet Head 3D Printing 2.1.8 Stereolithography 2.1.9 Selective Laser Sintering Sequential Interpenetrating Polymer Network 3D Printable Diamond Polymer Composite Adhesives for 3D Printing Voronoi-Based Composite Structures Graphene Oxide Reinforced Complex Architectures Multiwalled Carbon Nanotube Composites Multifunctional Polymer Nanocomposites Additive Manufacturing 2.9.1 Thermosetting Polymers 2.9.2 UV Curable Materials 2.9.3 (Meth)acrylate Monomers 2.9.4 Thiol-ene and Thiol-yne Systems 2.9.5 Epoxides
Contents Visible Light-Curable and Visible Wavelength-Transparent Resin 2.11 Poly(ether ether ketone) 2.12 Lasers 2.13 Ultra-High MolecularWeight PE 2.14 Production of PP Polymer Powders 2.15 Acrylate-Based Compositions 2.15.1 Dimensionally Stable Acrylic Alloys 2.15.2 Oligoester Acrylates 2.16 Standards 2.16.1 Biomedical Applications 2.16.2 Color 2.17 Particle-Free Emulsions 2.18 Shape Memory Polymers 2.18.1 Synthesis with Stereolithography 2.18.2 Flexible Electronics 2.18.3 Magnetically Responsive Shape Memory Polymer 2.18.4 Sequential Self-Folding Structures 2.18.5 Multi-shape Active Composites 2.18.6 Radiation Sensitizers 2.18.7 Shape Memory Alloy Actuating Wire 2.18.8 Metal Electrode Fabrication 2.18.9 4D Printing 2.19 Water-Soluble Polymer 2.20 Water-Washable Resin Formulations 2.21 Extremely Viscous Materials 2.21.1 Tunable Ionic Control of Polymeric Films 2.22 Photopolymer Compositions 2.22.1 Mechanical Properties of UV Curable Materials 2.22.2 High-Performance Photopolymer with Low Volume Shrinkage 2.22.3 Dual InitiationWavelengths for 3D Printing 2.23 Crosslinked Polymers 2.24 Recycled Plastics 2.25 3D Printed Fiber Reinforced Portland Cement Paste 2.26 Polymer-Derived Ceramics 2.26.1 Photocurable Ceramic/Polymer Composites 2.26.2 Ceramic Matrix Composite Structures 2.26.3 Selective Laser Melting 2.26.4 Stereolithography Resin for Rapid Prototyping of Ceramics and Metals References vii 2.10 95 96 97 97 98 99 99 100 101 102 102 103 104 105 105 108 109 111 112 112 114 115 117 122 124 124 125 125 126 127 129 132 133 134 135 137 145 146 147
viii Contents 3 Airplanes and Cars 3.1 Airplanes 3.1.1 Material Testing Standards 3.1.2 Lightweight Aircraft Components 3.1.3 Aircraft Spare Parts 3.1.4 Polymer Laser Sintering 3.1.5 Composites Part Production 3.1.6 DeployableWing Designs 3.1.7 Additive Manufacturing for Aerospace 3.1.8 Fiber Reinforced Polymeric Components 3.1.9 Manufacturing of Aircraft Parts 3.1.10 Multirotor Vehicles 3.1.11 Flame Retardant Aircraft Carpet 3.1.12 Aircraft Cabins 3.1.13 Additive Manufacturing of Solid Rocket Propellant Grains 3.1.14 High Temperature Heating System 3.1.15 Aerospace Propulsion Components 3.1.16 Antenna RF Boxes 3.1.17 Cyanate Ester Clay Nanocomposites 3.1.18 Bionic Lightweight Design 3.2 Cars 3.2.1 Laser Sintering 3.2.2 Automotive Repair Systems 3.2.3 Improving Aerodynamic Shapes 3.2.4 Common Automotive Applications 3.2.5 Thermomechanical Pulp Fibers 3.2.6 Polyamic Acid Salts 3.2.7 Recycled Tempered Glass from the Automotive Industry References Electric and Magnetic Uses 4.1 Electric Uses 4.1.1 Conductive Microstructures 4.1.2 Modular Supercapacitors 4.1.3 Active Electronic Materials 4.1.4 Piezoelectric Materials 4.1.5 Holographic Metasurface Antenna 4.1.6 Waveguide 4.1.7 Fuel Cell 4.1.8 Batteries 159 160 161 161 161 162 163 163 164 164 165 166 166 167 167 167 168 169 170 170 172 173 174 174 174 178 178 179 180 185 185 185 188 189 192 195 195 196 198
Contents Magnetic Uses 4.2.1 Polymer-Based Permanent Magnets 4.2.2 Bonded Magnets 4.2.3 Strontium Ferrite 4.2.4 Soft-Magnetic Composite 4.2.5 Discontinuous Fiber Composites by 3D Magnetic Printing References 4.2 Medical Applications 5.1 5.2 5.3 5.4 5.5 5.6 5.7 Basic Procedures 5.1.1 Image Acquisition 5.1.2 3D Printing 5.1.3 Microvalve-Based Bioprinting 3D Printed Organ Models for Surgical Applications 5.2.1 Organ Bioprinting 5.2.2 Materials 5.2.3 Liver 5.2.4 Heart 5.2.5 Cartilage 5.2.6 Bionic Ears 5.2.7 Skin 5.2.8 Scaffolds 5.2.9 Personalized Implants 5.2.10 Neural Tissue Models Bioinks 5.3.1 Cytocompatible Bioink 5.3.2 Hydrogel Bioinks 5.3.3 Dentin-Derived Hydrogel Bioink 5.3.4 Decellularized Extracellular Matrix Materials 5.3.5 Silk-Based Bioink 5.3.6 Nanoengineered Ionic-Covalent Entanglement Bioinks 5.3.7 Living Skin Constructs 5.3.8 Cell-Laden Scaffolds 5.3.9 Patient-Specific Bioinks Presurgical Simulation Models with Integrated Soft Tactile Sensors Dental Applications 5.6.1 Prosthetics Fluidic Devices ix 203 203 207 208 208 209 211 215 215 216 217 219 219 220 223 229 230 232 233 234 235 238 238 241 243 246 248 249 251 252 253 253 255 256 256 256 257 259
x Contents 5.8 3D Bioprinting of Tissues and Organs 5.8.1 3D Bioprinting Techniques 5.8.2 Pigmented Human Skin Constructs 5.8.3 Strategies for Tissue Engineering 5.8.4 Bone Tissue 5.8.5 Neuroregenerative Treatment 5.8.6 3D Tissues/Organs Combined with Microfluidics 5.8.7 3D Microfibrous Constructs 5.8.8 Biosynthetic Cellulose Implants 5.8.9 Polysaccharides 5.8.10 Corneal Transplants 5.8.11 Hydrogels from Collagen 5.8.12 Dissolved Cellulose 5.8.13 Hydrogels from Hyaluronic Acid and Methyl cellulose 5.8.14 Stem Cells 5.8.15 Autografts 5.8.16 Drug-Eluting Coronary Stents 5.9 Biomedical Devices 5.10 Soft Somatosensitive Actuators References 6 Pharmaceutical Uses 6.1 Drug Release 6.1.1 Pharmaceutical 3D Printing 6.1.2 Pharmaceutically Acceptable Amorphous Polymers 6.1.3 Paracetamol Oral Tablets 6.1.4 Patient-Specific Liquid Capsules 6.1.5 Thermolabile Drugs 6.1.6 Composite Tablets 6.1.7 Transdermal Drug Delivery 6.1.8 Chip Platforms for Microarray 3D Bioprinting References Index Acronyms Chemicals General Index 259 261 262 263 264 267 267 268 274 276 277 278 278 279 282 283 284 285 286 287 303 303 304 304 305 306 307 308 309 309 314 317 317 320 324
li This authoritative and comprehensive ‘must have’ book appeals to those scientists and engineers involved with industrial manufacturing using 3D printers. 3D industrial printing has become mainstream in manufacturing. This unique I book is the first to focus on polymers as the printing material and collates most | I of the scientific literature with respect to 3D printing. The book opens with a chapter on foundational issues and presents a broad overview of 3D printing procedures and the materials used therein. In particular, the methods of 3D printing are discussed and the polymers and composites used are detailed. The book details the main fields of applications areas which include electric and magnetic uses, medical applications, and pharmaceutical applications. Electric and magnetic uses include electronic materials, actuators, piezoelectric materials, antennas, batteries and fuel cells. Medical applications I are organ manufacturing, bone repair materials, drug-eluting coronary stents, I and dental applications. The pharmaceutical applications are composite tablets, transdermal drug delivery, and patient-specific liquid capsules. A special chapter deals with the growing aircraft and automotive uses for 3D printing, such as with manufacturing of aircraft parts and aircraft cabins. In the field of cars, 3D printing is gaining importance for automotive parts (brake components, drives), for the fabrication of automotive repair systems, and [ even 3D printed vehicles. Audience I This book will be of great value to a range of scientists and engineers who use I 3D printing
in advanced manufacturing including nano/micro-manufacturing, I in a variety of areas including automotive, aerospace, pharmaceutical and I medical device makers, electronics industry. Johannes Karl Fink is Professor of Macromolecular Chemistry at I Montanuniversität Leoben, Austria. His industry and academic career spans more than 30 years in the fields of polymers, and his research interests include [ characterization, flame retardancy, thermodynamics and the degradation of I polymers, pyrolysis, and adhesives. Professor Fink has published several books f on physical chemistry and polymer science including A Concise Introduction to I Additives for Thermoplastic Polymers (Wiley-Scrivener 2009), The Chemistry of I Biobased Polymers (Wiley-Scrivener 2014), and Polymer Waste Management | (Wiley-Scrivener 2018). Cover design by Russell Richardson. From cover images provided by pixubay.com ISBN 978-1-119-55526-1 9781119555261 Wiley www.wiley.com Ф s www.scrivénerpublishing.com
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| indexdate | 2024-07-10T08:17:33Z |
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| language | English |
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| spelling | Fink, Johannes Karl 1952- Verfasser (DE-588)1059832526 aut 3D industrial printing with polymers Johannes Karl Fink Three D industrial printing with polymers Industrial printing with polymers Beverly, MA Scrivener Publishing Hoboken Wiley 2019 xii, 326 pages illustrations txt rdacontent n rdamedia nc rdacarrier Rapid Prototyping Fertigung (DE-588)4389159-7 gnd rswk-swf 3D-Druck (DE-588)1032223197 gnd rswk-swf Kunststoff (DE-588)4033676-1 gnd rswk-swf Three-dimensional printing / Materials Manufacturing processes Plastics / Industrial applications Polymers / Industrial applications Rapid Prototyping Fertigung (DE-588)4389159-7 s DE-604 3D-Druck (DE-588)1032223197 s Kunststoff (DE-588)4033676-1 s 1\p DE-604 Erscheint auch als Online-Ausgabe 978-1-119-55523-0 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030802271&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030802271&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Fink, Johannes Karl 1952- 3D industrial printing with polymers Rapid Prototyping Fertigung (DE-588)4389159-7 gnd 3D-Druck (DE-588)1032223197 gnd Kunststoff (DE-588)4033676-1 gnd |
| subject_GND | (DE-588)4389159-7 (DE-588)1032223197 (DE-588)4033676-1 |
| title | 3D industrial printing with polymers |
| title_alt | Three D industrial printing with polymers Industrial printing with polymers |
| title_auth | 3D industrial printing with polymers |
| title_exact_search | 3D industrial printing with polymers |
| title_full | 3D industrial printing with polymers Johannes Karl Fink |
| title_fullStr | 3D industrial printing with polymers Johannes Karl Fink |
| title_full_unstemmed | 3D industrial printing with polymers Johannes Karl Fink |
| title_short | 3D industrial printing with polymers |
| title_sort | 3d industrial printing with polymers |
| topic | Rapid Prototyping Fertigung (DE-588)4389159-7 gnd 3D-Druck (DE-588)1032223197 gnd Kunststoff (DE-588)4033676-1 gnd |
| topic_facet | Rapid Prototyping Fertigung 3D-Druck Kunststoff |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030802271&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030802271&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT finkjohanneskarl 3dindustrialprintingwithpolymers AT finkjohanneskarl threedindustrialprintingwithpolymers AT finkjohanneskarl industrialprintingwithpolymers |