Experimental Temperature Compensation on Drop-On-Demand Inkjet Printing

Ludivine Fadel Taris 1 Stéphanie Poirier 1, 2 Pierre Temple-Boyer 1
1 LAAS-MICA - Équipe MICrosystèmes d'Analyse
LAAS - Laboratoire d'analyse et d'architecture des systèmes
Abstract : The paper demonstrates the interest in using temperature compensation to stabilize drop-on-demand inkjet printing process. Experiments describing the influence of inkjet printing parameters on the droplet velocity and ejection stability are discussed. Experimental results have permitted to develop a relation between the printing parameters and the kinetic property of drops where a variation of temperature is compensated by an adjustment of pulse amplitude. This method allows to obtain stable drops velocity for a variation of 15°C, while without compensation the velocity increases by 5 m/s. Thus, drop ejection is stabilized and the print quality is optimized.
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Ludivine Fadel Taris, Stéphanie Poirier, Pierre Temple-Boyer. Experimental Temperature Compensation on Drop-On-Demand Inkjet Printing. Micro and Nanosystems, Bentham Science Publishers, 2010, 2 (2), pp.137 - 141. ⟨10.2174/1876402911002020137⟩. ⟨hal-01511366⟩

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