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Volume: 25 | Article ID: art00023_1
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A Model for Jet Shortening in Drop-On-Demand Ink-Jet Printing
Stephen D. Hoath
Graham D. Martin
Ian M. Hutchings
  DOI :  10.2352/ISSN.2169-4451.2009.25.1.art00023_1  Published OnlineJanuary 2009
Abstract

A new model has been developed for the surface energydriven shortening of a free, cone-shaped fluid ligament of finite length, as a function of ligament diameter, length, mass and head speed. It differs significantly from classical models based on infinitely long cylindrical (Taylor) or conical (Keller) shapes, but leads to overall shortening speeds which are very similar to those provided by Taylor's model for typical drop-on-demand fluids.However, if a realistic initial velocity distribution along the length of the ligament is included, the model predicts more rapid shortening, by as much as 2 m/s for a jet speed of 6 m/s. Such effects should be taken into account when analyzing the behavior of real jets.The model's predictions of shortening speeds for free dropon-demand jets fail to account for all experimental observations, which for some polymer solutions can be as much as 2-3 times as high. This effect is attributed to elastic retraction, and may be a general feature linked to the polymer relaxation time.

Journal Title : NIP & Digital Fabrication Conference
Publisher Name : Society of Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane, Springfield, VA 22151, USA
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 DOI 10.2352/ISSN.2169-4451.2009.25.1.art00023_1
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Stephen D. Hoath, Graham D. Martin, Ian M. Hutchings, "A Model for Jet Shortening in Drop-On-Demand Ink-Jet Printingin Proc. IS&T Int'l Conf. on Digital Printing Technologies and Digital Fabrication (NIP25),  2009,  pp 75 - 78,  https://doi.org/10.2352/ISSN.2169-4451.2009.25.1.art00023_1

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Copyright © Society for Imaging Science and Technology 2009
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NIP & Digital Fabrication Conference
nip digi fabric conf
2169-4451
Society of Imaging Science and Technology
7003 Kilworth Lane, Springfield, VA 22151, USA
2169-4451(20090101)2009:1L.75;1-
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Articles
A Model for Jet Shortening in Drop-On-Demand Ink-Jet Printing
HoathStephen D.
MartinGraham D.
HutchingsIan M.
01012009
2009
1
75
78
2009
A new model has been developed for the surface energydriven shortening of a free, cone-shaped fluid ligament of finite length, as a function of ligament diameter, length, mass and head speed. It differs significantly from classical models based on infinitely long cylindrical (Taylor) or conical (Keller) shapes, but leads to overall shortening speeds which are very similar to those provided by Taylor's model for typical drop-on-demand fluids.However, if a realistic initial velocity distribution along the length of the ligament is included, the model predicts more rapid shortening, by as much as 2 m/s for a jet speed of 6 m/s. Such effects should be taken into account when analyzing the behavior of real jets.The model's predictions of shortening speeds for free dropon-demand jets fail to account for all experimental observations, which for some polymer solutions can be as much as 2-3 times as high. This effect is attributed to elastic retraction, and may be a general feature linked to the polymer relaxation time.