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J Electr Electron Mater : Journal of Electrical and Electronic Materials

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"선폭"

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"선폭"

Optimization of High-Precision Nozzle-Printing Processes and Process Parameters Analysis
Chanyeong Jung, Jeonggyo Kwon, Sunyoung Sohn
J Electr Electron Mater 2025;38(6):617-628.   Published online November 1, 2025
DOI: https://doi.org/10.4313/JEEM.2025.38.6.3
Nozzle-printing dispensers, which utilize air pulsation as a dispensing principle, operate by transmitting air pressure to the liquid to push a constant amount of liquid. Nozzle printers have the advantage of precisely controlling energy based on liquid properties, such as viscosity and surface tension, enabling the precise application of liquid at specific locations and quantities. This study introduces a printing process sequence using a nozzle printer equipped with a high-resolution vision alignment system. It compares printing patterns according to key process variables (jet pressure, tip height, and travel speed) that affect coating quality. Experimental results showed that a coating standard deviation of 2.14 μm was achieved at a moving speed of 20 mm/s and a nozzle height of 0.2 mm, resulting in the most stable and uniform coating quality. Through these experiments, optimal conditions were identified based on factors such as coating width, uniformity, and presence of discontinuity, and the effects of these conditions on the precision manufacturing process are discussed.
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Analysis of Key Parameters for the Printing Process Optimization of a Fluid Dispensing Systems
Hoseung Kang, Haechang Jeong, Soonho Hong, Nam Kyung Yoon, Sunyoung Sohn
J Electr Electron Mater 2024;37(4):382-393.   Published online July 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.4.4
The Microplotter system with a fluid dispensing method, sprays fluid based on ultrasonic pumping through piezoelectric devices. This technique can possible for various materials with a wide range of viscosities to be printed in microscale. In this paper, we introduces dispenser printing technology as well as aim to understand and apply various processes using the equipment. In addition, we will explain how to optimize the equipment by adjusting parameters such as spray intensity, tip height during printing, and patterning speed. By utilizing Microplotter’s advantage of being compatible with a wide range of fluids, including metal nanoparticles, carbon nanotubes, DNA, and proteins, it is expected to be used in various fields such as printed electronics, biotechnology, and chemical engineering.
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