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Simulation of droplet generation through electrostatic forces Khalid Rahman/Jeong-Beom Ko/Saleem Khan/Dong-Soo Kim/Kyung-Hyun Choi
The Journal of Mechanical Science and Technology, vol. 24, no. 1, pp.307-310, 2010
Abstract : This paper represents the multiphysics simulation of droplet generation of ink containing conductive nano-particles through electrostatic
forces on substrate. The main focus is to investigate the phenomena by generating the drops through a nozzle with the help of electrostatic
forces. The electrostatic based deposition system has vast application in printed electronics and biotechnology. In electrostatic
deposition mechanism for droplet generation, a strong electric potential is applied at the tip of the nozzle; due this electric potential, the
liquid containing the nano-particles experience strong electrostatic static forces at the interface with the air (at the tip of the nozzle).
When these electrostatic forces exceed the internal (viscous forces) and external forces (surface tension), a deformation takes place which
results in the flow of the liquid in the form of droplets. The size of the droplet is dependent on different parameters like applied voltage,
properties of the ink, dimension of the nozzle. To have better understanding of this, a numerical simulation was performed based on
multi-physics approach. Multiple simulations were performed by changing the position of electrode in nozzle and varying the applied
voltage. Droplet size with respect to applied voltage was evaluated; electric field with respect to applied voltage and time for the droplet
generation was also evaluated through these simulations. This study will help in better understanding the parameters of droplet generation
phenomena and optimal design of the nozzle for the electrostatic inkjet system.
Keyword :
Droplet generation; Electrostatic forces; Inkjet; Multiphysics phenomena; Numerical simulation
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