Inkjet Printing in Industry: Materials, Technologies, Systems, and Applications, 3 Volumes (Volumes) (1ST ed.)
Table of Contents: Volume 1 Preface xxvii Part I Introduction 1 1 Detailed Overview Over the Book Chapters 3Werner Zapka Part II Fundamentals 17 2 Wood-Graining Effects in Inkjet Printing 19Stephen D. Hoath 3 Can...
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Table of Contents: Volume 1 Preface xxvii Part I Introduction 1 1 Detailed Overview Over the Book Chapters 3 Part II Fundamentals 17 2 Wood-Graining Effects in Inkjet Printing 19 3 Can We Determine the Reliable Jetting Performance from an Inkjet Ink? 45 Part III Pros and Cons of Inkjet Printing 57 4 Comparing Inkjet with Other Printing Processes, Mainly Screen Printing 59 Part IV Inks 93 5 Inkjet Ink Formulations: Overview and Fundamentals 95 6 UV-Curable Alkenyl Monomers and Oligomers -- The Backbone Chemistry of UV Inkjet Inks 125 7 Photoinitiators for UV Inkjet Applications 199 8 UV-Curable Inkjet Inks and Their Applications in Industrial Inkjet Printing, Including Low-Migration Inks for Food Packaging 279 9 UV-Curable Inkjet Inks for Label Printing -- Case Study: Labelfire 340 303 10 Electron Beam Curing of Inks and Coatings 323 11 Dye-Sublimation Inkjet Ink 337 12 Ceramic Inks 357 13 Inks for Security Printing 369 14 Inks for Conductive Mass Production Digital Printing 381 15 Advanced Inkjet Processes for Optoelectronics (Displays) and Related Applications 405 16 Deliberate Formulation for Regulated Markets 435 17 Deinking -- How to Get the Ink Off the Paper 449 Part V Printhead Technology 465 18 HP Printhead Technology 467 19 Technology of Konica Minolta's Inkjet Printhead 503 20 Dimatix Printhead Technology 523 21 Xaar's Inkjet Printing Technology and Applications 535 22 Seiko's RC1536 Printhead -- Making Jettability Wider 555 23 Toshiba Tec's Inkjet Printhead Technology 569 24 Memjet Printing Technology 585 Volume 2 Preface xxvii Part VI Substrates 605 25 Glass Substrates for Industrial Inkjet Applications 607 26 Coating Substrates to Match Ink Performance and Meet User Requirements 625 27 Paper and Paper-Based Substrates for Industrial Inkjet Printing 641 Part VII Metrology 655 28 Measurement of Complex Rheology and Jettability of Inkjet Inks 657 29 Measurements of Inkjet Droplet Size, Velocity, and Angle of Trajectory 695 30 Drop Watcher Technology and Print Quality Analysis 717 31 Automating Measurement Techniques for Product Development 739 32 Print Quality Control 757 33 UV Radiation Sources, UV Radiation Absorption, and UV Radiation Measurement 769 34 Online and Offline Testing of Printheads 801 Part VIII Pre/post Processes 821 35 Overview UV Curing, Good Polymerization Process 823 36 Priming for Inkjet Printing on Textiles 845 37 Pre- and Post-processes 867 38 UV Lamps 909 39 UV LED Ink Curing: UV LED Technology and Solutions for Integration into Industrial Inkjet Printing 933 40 Das8. UV-Cured Supermatt Surfaces With Low Migration 951 41 Electron Beam Curing -- Know-how and Possibilities for Industrial Inkjet Processes 977 42 Electron Beam (EB) Processing for Industrial Inkjet Printing 1011 43 IR -- Drying/Processing 1027 44 Photonic Curing 1051 Part IX Software/Data 1065 45 Software -- Connecting Industrial Print Hardware with the Outside World 1067 46 Data Handling 1081 Part X Machine Integration 1087 47 Inkjet Printing of Solder Mask 1089 48 Machine Integration by Industrial Inkjet Ltd: Lessons Learnt 1111 49 Inca's Experience of System Integration 1151 50 Hymmen Digital Décor Printing 1171 51 Development of Image Quality and Reliability Enhancing Technology for Digital Inkjet Press AccurioJet KM-1 1185 Volume 3 Preface xxv Part XI Printed Electronics 1201 52 Comparison of Analog and Digital Printing Specifically for Printed Electronics 1203 53 Digital Functional Printing Based on Nano Metal Inks 1231 54 Inkjet in the PCB-Production 1255 Part XII Inkjet+Robot 1269 55 Robot-Based Direct Digital Printing on Freeform Surfaces 1271 56 Inkjet-Based Direct-to-Shape Printing with Partial or Full Coverage of the Object -- Technical Challenges and Solutions for Printing Process, Handling Systems, and Workflow 1299 57 Xaar 1003 Printhead on Robot Arm 1319 58 Robotics for Inkjet-Based 2 1/2 D Printing; Direct-to-Shape 1335 Part XIII 3D Printing 1351 59 3D Printing/Additive Manufacturing 1353 60 Printed Electronics Going 3D -- An Overview on Structural Electronics 1365 61 HP's Metal Jet 3D Printing Technology 1391 62 3D Printing of Optics 1403 63 Continuous Serial 3D Production Platform with a Rotating Platform -- A Completely New Method to Increase the Productivity of AM Systems 1417 64 3D Printing in the Automotive Industry 1427 Part XIV Bio-printing 1461 65 Industrial Applications of Inkjet Printing in Life Sciences 1463 Part XV Case Studies/Case Examples 1501 66 HP's Inkjet Presses for Industrial Corrugated Packaging 1503 67 Dekron's Direct Printing Technology 1521 68 Achieving Cost-effective, High-volume Digital Printing of Laminates: Key Component Selection and Test Criteria 1543 69 Inkjet-Based Security Printing 1569 Part XVI Printing Strategies 1583 70 Printing Strategies 1585 Part XVII Standardization 1595 71 Inkjet-Related Standards: Background and Status 1597 Part XVIII Regulatory Requirements 1623 72 Regulatory and Safety Aspects of Ink Formulation and Use 1625 Part XIX Ecological Aspects 1647 73 Sustainability and Eco-footprint -- Concepts for the Application of Circular Economy Criteria for Printing Systems and Their Use when Printing on Paper, Labels, and Direct-to-Object 1649 Part XX Patents 1669 74 Patents on Inkjet Technology and Materials 1671 75 Profitable and Continuous Product Innovation Relies on Effective Patent and Trade Secret Licensing 1699 Glossary 1713 Index 1731 Biographical Note: Werner Zapka was manager of the Advanced Application Technology team of XaarJet AB (Jarfalla, Sweden) where inkjet processes are developed with a focus on digital fabrication, from 1999-2019. More recently, he became an independent consultant in the inkjet printing industry and continues to serve on the committee of the Digital Fabrication conference series. Publisher Marketing: This handbook provides an indispensable overview of all essential aspects of industrial-scale inkjet printing. Inkjet printing, as a scalable deposition technique, has grown in popularity due to its being additive, digital, and contact-free. Given these advantages, the technology can now be used in stable and mature industrial-scale applications. As the mechanisms for inkjet printing have improved, so too have the versatility and applicability of this machinery within industry. The handbook's coverage includes inks, printhead technology, substrates, metrology, software, as well as machine integration and pre- and post-processing approaches. This information is complemented by an overview of printing strategies and application development and covers technological advances in packaging, security printing, printed electronics, robotics, 3D printing, and bioprinting. Important topics like standardisation, regulatory requirements, ecological aspects, and patents. Readers will find:
The ideal resource for material scientists, engineering scientists in industry, electronic engineers, and surface and solid-state chemists, Inkjet Printing in Industry is an all-in-one tool for modern professionals and researchers alike. |
