- Fabrication and Optimization of Al2O3 Microchannels Using DLP-Based 3D Printing
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Jun-Min Cho, Yong-Jun Seo, Yoon-Soo Han
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Received October 31, 2024 Accepted December 20, 2024 Published online January 23, 2025
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DOI: https://doi.org/10.4150/jpm.2024.00346
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 Abstract
- This study focused on optimizing the digital light processing (DLP) 3D printing process for high-precision ceramic components using alumina-based slurries. Key challenges, such as cracking during debinding and precision loss due to slurry sedimentation, were addressed by evaluating the exposure time and the nano-to-micro alumina powder ratios. The optimal conditions—exposure time of 15 seconds and a 1:9 mixing ratio—minimized cracking, improved gas flow during debinding, and increased structural precision. Microchannels with diameters above 1.2 mm were successfully fabricated, but channels below 0.8 mm faced challenges due to slurry accumulation and over-curing. These results establish a reliable process for fabricating complex ceramic components with improved precision and structural stability. The findings have significant potential for applications in high-value industries, including aerospace, energy, and healthcare, by providing a foundation for the efficient and accurate production of advanced ceramic structures.
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