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Volume: 27 | Article ID: art00018_1
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Dependence of Drop Speed on Nozzle Diameter, Viscosity and Drive Amplitude in Drop-on-Demand Ink-jet Printing
Stephen D. Hoath
Wen-Kai Hsiao
Sungjune Jung
Graham D. Martin
Ian M. Hutchings
  DOI :  10.2352/ISSN.2169-4451.2011.27.1.art00018_1  Published OnlineJanuary 2011
Abstract

Results of recent experiments and numerical simulations are presented, which have been used to establish empirical rules for the dependence of drop speed on nozzle diameter and drive amplitude for Newtonian and non-Newtonian fluids printed with a range of different ink-jet print-head technologies.Experiments were carried out with Xaar, MicroFab and Spectra Dimatix print heads and with solutions of polystyrene in diethyl phthalate as model fluids. These results are compared with predictions from recent numerical codes developed by collaborators in the University of Leeds, and from simple models for drop-on-demand fluid jetting resulting from physical laws.

Journal Title : NIP & Digital Fabrication Conference
Publisher Name : Society of Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane, Springfield, VA 22151, USA
Subject Areas :
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 DOI 10.2352/ISSN.2169-4451.2011.27.1.art00018_1
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Stephen D. Hoath, Wen-Kai Hsiao, Sungjune Jung, Graham D. Martin, Ian M. Hutchings, "Dependence of Drop Speed on Nozzle Diameter, Viscosity and Drive Amplitude in Drop-on-Demand Ink-jet Printingin Proc. IS&T Int'l Conf. on Digital Printing Technologies and Digital Fabrication (NIP27),  2011,  pp 62 - 65,  https://doi.org/10.2352/ISSN.2169-4451.2011.27.1.art00018_1

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Copyright © Society for Imaging Science and Technology 2011
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NIP & Digital Fabrication Conference
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Society of Imaging Science and Technology
7003 Kilworth Lane, Springfield, VA 22151, USA
2169-4451(20110101)2011:1L.62;1-
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Articles
Dependence of Drop Speed on Nozzle Diameter, Viscosity and Drive Amplitude in Drop-on-Demand Ink-jet Printing
HoathStephen D.
HsiaoWen-Kai
JungSungjune
MartinGraham D.
HutchingsIan M.
01012011
2011
1
62
65
2011
Results of recent experiments and numerical simulations are presented, which have been used to establish empirical rules for the dependence of drop speed on nozzle diameter and drive amplitude for Newtonian and non-Newtonian fluids printed with a range of different ink-jet print-head technologies.Experiments were carried out with Xaar, MicroFab and Spectra Dimatix print heads and with solutions of polystyrene in diethyl phthalate as model fluids. These results are compared with predictions from recent numerical codes developed by collaborators in the University of Leeds, and from simple models for drop-on-demand fluid jetting resulting from physical laws.