Bubble Defect Generation Mechanism in Slot Die Coating of High-Viscosity Fluids

Fang, Zikeng; Yan, Ying; Li, Chenghang; Luo, Xiang; Zhou, Ping

doi:10.1021/acsami.3c18459

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.3c18459

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Bubble Defect Generation Mechanism in Slot Die Coating of High-Viscosity Fluids

Zikeng Fang,

Ying Yan,

Chenghang Li

et al.

Abstract: Slot die coating is a widely used technique for the production of high accuracy films. One of the main challenges in slot die coating processes is determining the optimal range of operating parameters to prevent defects, such as bubbles, in high-viscosity films. In this study, both simulation and experimental methods were used to investigate the changes in the upstream meniscus under various coating parameters. Two types of air entrainment processes were considered, dominated by fluid inertia and viscous force… Show more

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Simulation Analysis of the Influence of Operating Parameters on the Pressure Profile in the Coating Bead

Pan,

Chen,

Wei

et al. 2024

Coatings

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In-depth analysis of the pressure profile of coating beads of slot die coating is helpful to better understand the behavior of the flow field in a coating bead and to better obtain a stable coating bead. In this study, ANSYS Fluent 19.2 was used to simulate slot die coating. The simulation results clearly show the influence of various operating parameters on the state of the coating bead and the pressure profile in the coating bead. The results show that the pressure profile can be clearly changed by changing the flow rate, substrate speed, and downstream die lip length. Simultaneously increasing the substrate speed from 0.08 to 0.12 m/s and the average inlet velocity from 0.02672 to 0.04 m/s results in an increase in maximum pressure from 298 to 538 Pa. Increasing only the substrate speed, from 0.12 to 0.16 m/s, causes the maximum pressure to decrease from 538 to 195 Pa. Increasing only the average inlet flow velocity, from 0.027 to 0.04 m/s, leads to an increase in maximum pressure from 167 to 745 Pa. Extending the downstream die lip length from 0.4 mm to 1 mm results in an increase in maximum pressure from 189 to 471 Pa. Reducing the upstream coating gap from 0.3 to 0.1 mm results in significant changes in the pressure profile in the upstream direction. Changing the contact angle can affect the pressure profile in the coating bead, but this is not clear. Changing the coating liquid density at a Reynolds number less than 1.733 has less effect on the pressure profile.

show abstract

Simulation Analysis of the Influence of Operating Parameters on the Pressure Profile in the Coating Bead

Pan,

Chen,

Wei

et al. 2024

Coatings

View full text Add to dashboard Cite

show abstract

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Bubble Defect Generation Mechanism in Slot Die Coating of High-Viscosity Fluids

Cited by 1 publication

References 36 publications

Simulation Analysis of the Influence of Operating Parameters on the Pressure Profile in the Coating Bead

Simulation Analysis of the Influence of Operating Parameters on the Pressure Profile in the Coating Bead

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