Recent Progress in Ink Jet Technologies
Ivan Rezanka and Reiner Eschbach, Editors
1996
ISBN / ISSN: 0-89208-192-9
309 pages
The second book of the "Recent Progress Series" provides an up-to-date look at ink-jet related topics in industry and academia. Eighty-nine papers on ink-jet topics are combined with editorial updates allowing the professional to gain an in-depth understanding of the field and efficient access to the relevant data.
© 1996, The Society for Imaging Science and Technology
Chapter I: General Papers
- Correlation between Drying Time and Ink Jet Print Quality Parameters
Leonard Carreira, Lawrence Agbezuge and Arthur Gooray; Xerox Corporation pages 1-4.
- Issues Impacting the Design and Development of an Ink Jet Printer for Textiles
Brad Hunting, Raymond Puffer, Stephen Derby, and Leo Loomie*; New York State Center for Advanced Technology in Automation, Robitics and Manufacturing and Mechanical Engineering and Rensselaer Polytechnic Institute *Artisan Textiles pages 5-8.
- Ink Jet Printer Gamut Visualization
Gabriel Marcu and Satoshi Abe*; Array Corporation *University of Tokyo pages 9-12.
- Ink Jet Printing: Past, Present and Future
Ross N. Mills; Imaging Technology International Corporation pages 12-15.
- Drop-on-Demand Ink Jet Transducer Effectiveness
Stephen Pond; Xerox Corporation pages 16-19.
- Optimal Speed Profile Design of Stepping Motors for an Inkjet Printer
Hong-Yu Lin, Shu-Cheng Hsieh and Ming-Chyuan Lu; Opto-Electronics and Systems Labs, Industrial Technology Research Institute pages 20-22.
- High Ink Resistance Barrier Films for Ink Jet Printers
Karuppiah Chandrasekaran; DuPont Ink Jet Enterprise pages 23-27.
- Ink Jet Barrier Film for Resolving Narrow Ink Channels
Karuppiah Chandrasekaran; DuPont Ink Jet Enterprise pages 28-33.
- Continuous-Tone Color Prints by the Electrohydrodyamic Ink-Jet Method
Dong Ho Choi and Francis C. Lee; IBM Research Division Alameda Research Center pages 33-35.
- Computer to Press with Inkjet Imaging
Andreas Berchtold; MAN Roland Druckmaschinen AG pages 36-39.
- Impact of an Ink Drop on Paper
Akira Asai, Makoto Shioya, Shinichi Hirasawa, and Takeshi Okazaki; Canon, Inc. pages 40-42.
Chapter II: Continuous Ink Jet
- An Optical Method for Drop Formation Stability Measurement of a Continuous Ink Jet
L. Palm and J. Nilsson; Lund Institute of Technology pages 43-46.
- Jet, Wave and Droplet Velocities for a Continuous Fluid Jet
Randy Fagerquist; Scitex Digital Printing, Inc. pages 46-53.
- Generation of Drops and Satellites by Two Mode EHD Stimulation of a Continuous Jet
B. Barbet, P. Atten, and A. Soucemarianadin*; CNRS & Univ. J. Fourier *TOXOT Science and Applications and CNRS & Univ. J. Fourier pages 54-58.
- Color Mapping of Continuous Ink Jet Printers Using Non-Linear Masking Equations
John L. Ingraham and Jennifer Laskin; IRIS Graphics, Inc. pages 58-60.
- Stimulation Characteristics of Various Diameters of Ink Jet Which Have Equal Amplitude Stimulation
Michael F. Baumer and Hilarion Braun; Scitex Digital Printing, Inc. pages 61-63.
- Advances in Linear Array Continuous Ink-Jet Droplet Charging and Deflection
Randy Fagerquist; Scitex Digital Printing, Inc. pages 64-69.
- Experimental Evaluation of Ink Jet Interchannel Crosstalk Compensation
Ulf C. Bjorkengren; Lund Institute of Technology pages 70-75.
- Formation of Isolated Drops in a Continuous Jet
C. Bardeau*, D. Fressard*,#, P. Atten#, and B. Barbet*,#; *Toxot Science and Applications #CNRS & Joseph Fourier University pages 75-79.
- Stimulation of High Quality, High Speed Ink-Jet Printers
James A. Katerberg; Eastman Kodak Company pages 80-81.
- Interchannel Crosstalk Compensation in a Continuous Ink-Jet System
Ulf C. Bjorkengren; Lund Institute of Technology pages 82-86.
- High Resolution Long Array Ink-Jet Printer
Surinder K. Bahl; Scitex Digital Printing, Inc. pages 87-88.
- Theoretical and Experimental Study of Multi-Electrode Electrohydrodynamic Stimulation of Liquid Jets
A. Spohn*, P. Atten#, A. Soucemarianadin#, and A. Dunand#; *CNRS and Joseph Fourier University #Toxot Science and Applications pages 89-93.
- Color Consistency of Continuous Ink Jet and Analog Proofs
John J. Ingraham; IRIS Graphics, Inc. pages 94-95.
- Using IRIS Proofs for Contract Proofing
Eli Baron; IRIS Graphics, Inc. pages 96-97.
- Continuous Ink Jet Printing of Digital Radiographs and Other Medical Images
Tomas Kirkhorn, Johan Nilsson, Mikael Kehler*, Kerstin Lyttkens*, and Nils-Gunnar Holmer#; Lund Institute of Technology *Lund University Hospital #Lund University pages 97-98.
- Enhanced Density Resolution with Continuous Ink Jet Printing Using Dual Ink Densities
Tomas Kirkhorn, Johan Nilsson, and Nils-Gunnar Holmer*; Lund Institute of Technology *Lund University pages 99-105.
- Light Stability Characteristics of Contone Ink Jet Printing Systems: The Effect of Printing with Dots
Donald R. Allred and Nathaniel R. Schwartz; IRIS Graphics, Inc. pages 106-107.
- Theoretical and Experimental Study of the Vibrating Fluid Jet Cavities for Large Width Continuous Printers
A. Badea*,**, A. Dunand*, A. Soucemarianadin*,#, and C. Carasso**; *Toxot Science and Applications #Laboratoire de Rheologie **Universite de Saint Etienne pages 108-112.
- Selective Metallization of Non-Conductor Substrates by Ink-Jet Printing
O. Dupuis, M.H. Delvaux, P. Dufour, H. Sendrowicz, and J.P. Soumillion*; SENSY *Universite Catholique de Louvain pages 113-115.
Chapter III: Piezoelectrically Driven Ink Jet
- The Printing Technology of the Tektronix Phaser® 340
Ronald L. Adams; Tektronix, Inc. pages 117-120.
- Photo-Realistic Ink Jet Printing Through Dynamic Spot Size Control
David B. Wallace, Virang Shah, Donald J. Hayes and Michael E. Grove; MicroFab Technologies, Inc. pages 120-122.
- New Directions in Print Head Construction
Paul H. McClelland; Hewlett Packard InkJet Business Unit pages 123-124.
- Ink Jet Head with Multi-Layer Piezoelectric Actuator
Tsuyoshi Kitahara; Seiko Epson Corporation (Japan) pages 125-128.
- Recent Advances in Niche Printhead Technology
Edward R. Moynihan; Spectra, Inc. pages 128-130.
- Applications in Commercial Printing for Hot Melt Ink Jets
Linda T. Creagh-Dexter; Spectra, Inc. pages 131-133.
- Ink Volume Displacement in an Impulse Printhead with Bilaminar Transducer
Hue Le, Ron Burr, Qiming Zhang*, and Qichang Xu*; Tektronix, Inc. *Pennsylvania State University pages 134-138.
- Phase Change Ink Jet Technology
Ronald L. Adams; Tektronix, Inc. pages 138-141.
Chapter IV: Thermal Ink Jet
- New Bubble Jet Head Technologies Used in Canon Color Bubble Jet Printer BJC-70
Junji Shimoda; Canon, Inc. pages 143-146.
- Black and Color Resolution Enhancement Technology used in the Hewlett-Packard DeskJet 850C Printer
Ross R. Allen; Hewlett Packard Labs. pages 147-149.
- Thermal Ink Jet Printhead Heater Design and Its Effect on Heater Lifetime
Cathie Burke, Narayan Deshpande, Willaim Hawkins, Dale Ims, Michael O'Horo, Gary Kneezel, Thomas Tellier, Ivan Rezanka, and John Slowik; Xerox Corporation pages 150-150.
- Microelectronic Device Design for a Fully-Integrated Silicon Based Thermal Ink Jet IC
Sophie Verdonckt-Vandebroek, William G. Hawkins*, Cathie J. Burke*, Thomas A. Tellier*; Xerox Webster Research Center *Xerox Advanced Imaging Business Unit, Xerox Webster Research Center pages 151-153.
- A Theoretical and Experimental Examination of the Bubble Jet Energy Window
Robert Cornell; Lexmark International, Inc. pages 154-157.
- High Fidelity Color Reproduction on Bubble Jet Printers
B. Ruetz; Canon Information Systems, Inc. pages 157-157.
- Ink Viscosity Effects on Drop Generation
E. Mariano Freire; Xerox Corporation pages 158-159.
- Drop Placement Errors in a Thermal Ink Jet Printer
Peter A. Torpey; Xerox Corporation pages 160-161.
- Testing Unpackaged Thermal Ink Jet Printing Devices
Herman A. Hermanson and Robert V. Lorenze; Xerox Corporation pages 162-168.
- Drop Generation Process in TIJ Printheads
Michael P. O'Horo, Narayan V. Deshpande and Donald J. Drake; Xerox Corporation pages 169-171.
- Study of the Vapor Bubble on an Inkjet Printhead Heater Surface
Chie C. Poon and Francis C. Lee; IBM Research Division pages 172-176.
- Bubble Ink-Jet Technology with Improved Performance
Enrico Manini; Olivetti (Italy) pages 177-178.
- Correlation of Misdirected Satellite Drops and Resultant Print Quality Defects with Nozzle Face Geometries in TIJ Printheads
Robert V. Lorenze and Daniel E. Kuhman; Xerox Corporation pages 179-182.
- Recording Sheets for Bubble Jet Printing
Eiichi Suzuki, Mamoru Sakaki, Makoto Katayama, and Tokuya Ohta; Canon, Inc. pages 183-186.
- Material Characteristics of Sputtered Ta and TaAl Thin Films Used in Thermal Ink Jet Devices
A. Skumanich, V. Minkeiwicz, M. Moore, J. Eldridge, and F.C. Lee; IBM Almaden Research Center pages 186-188.
- Materials Aspects for High Quality Color Thermal Ink Jet Printing
P. Gendler; IBM Research Division pages 188-190.
- Effects of Drive Input Pulse and Heater Surface on the Uniformity of Bubble Jet Printheads
K. Buhler, W. Pkeruhn, S. Scherdel, and W. Schullerus; Inkjet Systems pages 191-195.
- Analysis of Bubble Pressure Bubble Jet Printing Technology
Ken Tsuchii, Tasuyuki Tamura, Akira Asai, and Hisao Yaegashi; Canon Inc. pages 196-197.
- Design of Micromechanical Bubble-Jet Devices
Bernhard Hochwind; Technische Universitat of Munchen pages 198-202.
- Overcoat Failure Mechanisms in Thermal Ink Jet Devices
L.S. Chang, J.O. Moore, and J.M. Eldridge; IBM Corporation pages 203-205.
- A Thermal Ink-Jet Printing System Design Approaches Laser Performance
Douglas R. Watson; Hewlett-Packard Co. pages 206-210.
- Crosstalk Study of Thermal Inkjet Print Head from Real-Time Drop Size and Velocity Measurements
Chie C. Poon and Francis C. Lee; IBM Research Division pages 210-214.
- Kogation: A New Mechanism and Solution
David J. Halko; Hewlett Packard Company pages 215-217.
- Kogation of Inorganic Impurities in Bubble Jet Ink
K. Shirota, M. Shioya, Y. Suga, and T. Eida; Canon, Inc. (Japan) pages 218-219.
Chapter V: Ink and Substrates
- The Physicochemical Environment of Acid Red 249 Insolubilized in an Ink Jet Paper
Hidetaka Oka and Akira Kimura; Ciba-Geigy Japan Ltd. pages 221-225.
- Novel Black Pigment for Ink Jet Ink Applications
Joseph E. Johnson and James A. Belmont; Cabot Corporation pages 226-229.
- The Effect of Drying Rate on Inter-Color Bleed
Leonard Carreira, Arthur Gooray and Lawrence Agbezuge; Xerox Corporation pages 230-232.
- Rheological, Thermo-Mechanical and Viscoelastic Requirements of a Phase Change Ink for an Offset Ink Jet Printing Process
Loc Bui, Harold Frame, Don Titterington and Wayne Jaeger; Tektronix, Inc. pages 233-236.
- Use of Experimental Design Techniques to Build a Formulation Model for Phase Change Ink Jet Inks
Don Titterington and Ron Burr; Tektronix, Inc. pages 237-239.
- Recent Developments in Ink Jet Printing of Textiles with Reactive Dyes
John Provost; ZENECA Colours pages 239-244.
- The Effect of Paper Sizing Treatments on DOD Ink Jet Printing at Medium to High Resolution
J. Borch; Lexmark International pages 244-246.
- Engineering an Ink Jet Paper: What is Involved?
David L. Lee, Wayne H. Fass and Alan T. Winslow; Weyerhaeuser Company pages 247-253.
- A Novel Approach to IJ Film (or Paper) Media Granting Highest Resolution, Fast Drying and High Durability
Peter C. Walchli; Celfa/Folex Ltd. pages 253-256.
- The Light Fading Stability of an Improved Ink Set for IRIS Graphics Ink Jet Printers
Henry Wilhelm; Preservation Publishing Company pages 256-257.
- Effects of Surface-Size Treatment on Performance of Plain Paper in Non-Impact Printing
Lesley J. Baker, Otto S. dePierne and Robert J. Proverb; Cytec Industries pages 257-260.
- Improvement of Ink Jet Printer Performance by Modifying Office Papers
Dave Brooks, Dale Davis, Michael Sklarewitz, Peter Tauriello and Soodabeh Tronson; Hewlett Packard Labs. pages 261-264.
- Environmental Effects on Image Bleed with Various Ink Jet Imaging Substrates
Steven A. Carlson, Roger J. Reed*, Christopher D. Rundle#, Richard Kellett**; Graphics Technology Int'l. *Glory Mill Papers Ltd. #Chartham Papers, Ltd. **Graphics Technology Int'l. pages 264-265.
- Paper Design Characteristics for DOD Ink Jet Printing at Medium to High Resolution
A. Borch; Lexmark International pages 266-269.
- Media Selection for Contone Ink Jet Printers: A Survey of Matte Papers
Donald R. Allred, John Ingraham and Andra Osis; Iris Graphics, Inc. pages 269-271.
- Basic Principles Related to the Influence of the Paper Surface in Printing
P. Oittinen and H. Saarelma; Helsinki University of Technology pages 272-275.
- Dyes Versus Pigments: The Truth
P. Gregory; Zeneca Specialties pages 276-278.
- Beyond the Black-Novel High Waterfast Dyes for Colour Ink Jet Printing
R.W. Kenyon; Zeneca Specialties pages 278-280.
- Formulation and Characterization of Textile Inks for Ink Jet Printing
G. Balea*, J.H. Xing#, R. Gaglione*, P. Attane#, and A. Soucemarianadin*,#; *Toxot Science and Applications #Laboratoire de Rheologie pages 280-284.
- Reflection Density Control Characteristics of Electro-Rheogical Fluid InkJet
Noriaki Kiyohiro and Yukihiro Hayakawa; Yamanashi University pages 285-288.
- Plain Paper Choices for Ink Jet Printing
J. Borch; Lexmark International pages 288-292.
- Genotoxicity Evaluation of Inks
Barry Elliott; Zeneca pages 292-294.
- Novel Dyes for Ink Jet Applications
Wolfgang Bauer and Josef Ritter*; Cassella AG *Hoechst AG pages 295-296.
Chapter VI: Image Composition