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Enhancing pulsed electrohydrodynamic printing frequency via high-order-mode ejection

Huayang Li, Weili Yang, Yongqing Duan, Qichun Nie, Zhilong Shao, Zhouping Yin, YongAn Huang

2021Physics of Fluids28 citationsDOI

Abstract

We investigate multi-mode oscillation and ejection behavior in pulsed electrohydrodynamic (EHD) printing in this paper. The results show that multi-mode oscillation is determined by the damping ratio of the meniscus, while the phase difference between meniscus oscillation and the electric field governs whether jetting can occur. High-order-mode jetting can occur around the corresponding resonant frequency of a low damping ratio system. This enhances the frequency limit to approximately 2.62 times that of traditional pulsed EHD printing, providing an efficient approach to high-frequency EHD printing.

Topics & Concepts

ElectrohydrodynamicsOscillation (cell signaling)PhysicsMode (computer interface)MeniscusElectric fieldMechanicsOpticsOperating systemIncidence (geometry)Quantum mechanicsGeneticsComputer scienceBiologyElectrohydrodynamics and Fluid DynamicsFluid Dynamics and Heat TransferPower Transformer Diagnostics and Insulation
Enhancing pulsed electrohydrodynamic printing frequency via high-order-mode ejection | Litcius