4.8 Article

Residual oscillation suppression via waveform optimization for stable electrohydrodynamic drop-on-demand printing

期刊

ADDITIVE MANUFACTURING
卷 55, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.addma.2022.102849

关键词

Electrohydrodynamic drop-on-demand printing; Waveform optimization; Residual oscillation; Damped oscillator; Printing consistency

资金

  1. National Natural Science Foundation of China [52075209]
  2. Key-Area Research and Development Program of Guangdong Province [2019B010924005]
  3. Besides, the authors hope

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This study proposes an optimized waveform design for electrohydrodynamic drop-on-demand (EHD DOD) printing, which effectively eliminates residual oscillation in printing by adding an additional voltage pulse when jetting stops and retracts. The optimized waveform achieves a stable printing frequency that is 1.92 times higher than the unoptimized one, promoting its application in high-resolution additive manufacturing.
Electrohydrodynamic drop-on-demand (EHD DOD) printing is a promising additive manufacturing technique with both high resolution and good ink compatibility. However, it suffers from printing stability and uniformity due to the meniscus residual oscillation. Here we put forward an optimized waveform design by adding an additional voltage pulse when jetting stops and retracts to quickly eliminate the residual oscillation in EHD DOD printing. By utilizing a forced damped oscillator theoretical model, the characteristic duration time and demanded voltage value of the optimized waveform are determined. The correctness of theoretical result is proved by simulation and experiment. The proposed waveform design principle can almost completely eliminate the residual oscillation in EHD DOD printing. After optimization, the stable printing frequency achieved 1.92 times that of the unoptimized one, which promotes its application in high-resolution additive manufacturing process.

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