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Printing depth modeling, printing process quantification and quick-decision of printing parameters in micro-vat polymerization

Yue Wang, Yue Wang, Yancheng Wang, Yancheng Wang, Chenhao Mao, Deqing Mei

2023Materials & Design29 citationsDOIOpen Access PDF

Abstract

Vat photopolymerization is a widely employed additive manufacturing (AM) technique that commonly applying a digital light processing (DLP) light engine to provide a patterned light source. Notably, printing extreme-size structures is challenging, and the selection of printing parameters was currently highly reliant on repeatable trial-and-error experiments. In this work, a theoretical model for curing depth prediction was established by observing the effect of light intensity. A correction factor n was introduced to optimize the relationship among the critical curing energy, exposure time, and light intensity. Forming experiments verified the accuracy of the proposed theoretical curing depth prediction model, and a correction factor n equal to 0.75 was obtained. Optical rheological characterization experiments and Fourier transform infrared spectroscopy (FTIR) supported the quantitative characterization of the DLP printing process while revealing a stepwise transition during photocuring. Finally, a guidance for quick selection of the optimal curing time for 3D structure was obtained and applied to the high-precision microstructure printing process. High-fidelity microneedle arrays with 12 μm details were printed. This method of rapid selection of printing parameters and printing microstructures with high-precision details can potentially be used in the field of 3D bioprinting.

Topics & Concepts

Materials science3D printingDigital Light ProcessingCuring (chemistry)PhotopolymerDigital printingLight intensityProcess optimizationFourier transform infrared spectroscopyCharacterization (materials science)Process engineeringComputer sciencePolymerizationNanotechnologyEngineering drawingOpticsComposite materialPolymerArtificial intelligenceChemical engineeringPhysicsProjectorEngineeringAdditive Manufacturing and 3D Printing Technologies3D Printing in Biomedical ResearchPhotopolymerization techniques and applications
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