Ink material selection and optical design considerations in DLP 3D printing

H.G. Hosseinabadi; D. Nieto; A. Yousefinejad; H. Fattel; L. Ionov; A.K. Miri

doi:10.1016/j.apmt.2022.101721

Ink material selection and optical design considerations in DLP 3D printing

H.G. Hosseinabadi, D. Nieto, A. Yousefinejad, H. Fattel, L. Ionov^*, A.K. Miri^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Digital light processing (DLP) 3D printing has become a powerful manufacturing tool for the fast fabrication of complex functional structures. The rapid progress in DLP 3D printing has been linked to research on optical design factors and ink selection. This critical review highlights the main challenges in the DLP 3D printing of photopolymerizable inks. The kinetics equations of photopolymerization reaction in a DLP printer are solved, and the dependence of curing depth on the process optical parameters and ink chemical properties are explained. Developments in DLP platform design and ink selection are summarized, and the roles of monomer structure and molecular weight on printing resolution are shown by experimental data. A detailed guideline is presented to help engineers and scientists to select inks and optical parameters for fabricating functional structures for multi-material and 4D printing.

Original language	English
Article number	101721
Number of pages	16
Journal	Applied Materials Today
Volume	30
DOIs	https://doi.org/10.1016/j.apmt.2022.101721
Publication status	Published - 1 Feb 2023

Keywords

Digital light processing
3D printing
Photosensitive monomer
Ink selection
Resolution improvement
TISSUE
PHOTOPOLYMERIZATION
MICROFABRICATION
HYDROGELS
COMPLEX
VITRO

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10.1016/j.apmt.2022.101721Licence: Free access - publisher

Cite this

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title = "Ink material selection and optical design considerations in DLP 3D printing",

abstract = "Digital light processing (DLP) 3D printing has become a powerful manufacturing tool for the fast fabrication of complex functional structures. The rapid progress in DLP 3D printing has been linked to research on optical design factors and ink selection. This critical review highlights the main challenges in the DLP 3D printing of photopolymerizable inks. The kinetics equations of photopolymerization reaction in a DLP printer are solved, and the dependence of curing depth on the process optical parameters and ink chemical properties are explained. Developments in DLP platform design and ink selection are summarized, and the roles of monomer structure and molecular weight on printing resolution are shown by experimental data. A detailed guideline is presented to help engineers and scientists to select inks and optical parameters for fabricating functional structures for multi-material and 4D printing.",

keywords = "Digital light processing, 3D printing, Photosensitive monomer, Ink selection, Resolution improvement, TISSUE, PHOTOPOLYMERIZATION, MICROFABRICATION, HYDROGELS, COMPLEX, VITRO",

author = "H.G. Hosseinabadi and D. Nieto and A. Yousefinejad and H. Fattel and L. Ionov and A.K. Miri",

note = "Funding Information: Hossein G. Hosseinabadi acknowledges the receipt of fellowship award funding by the Alexander von Humboldt Foundation during this research. Amir K. Miri acknowledges the receipt of a start-up fund from NJIT and R01-DC018577 from NIH. Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

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AU - Hosseinabadi, H.G.

AU - Nieto, D.

AU - Yousefinejad, A.

AU - Fattel, H.

AU - Ionov, L.

AU - Miri, A.K.

N1 - Funding Information: Hossein G. Hosseinabadi acknowledges the receipt of fellowship award funding by the Alexander von Humboldt Foundation during this research. Amir K. Miri acknowledges the receipt of a start-up fund from NJIT and R01-DC018577 from NIH. Publisher Copyright: © 2022 Elsevier Ltd

PY - 2023/2/1

Y1 - 2023/2/1

N2 - Digital light processing (DLP) 3D printing has become a powerful manufacturing tool for the fast fabrication of complex functional structures. The rapid progress in DLP 3D printing has been linked to research on optical design factors and ink selection. This critical review highlights the main challenges in the DLP 3D printing of photopolymerizable inks. The kinetics equations of photopolymerization reaction in a DLP printer are solved, and the dependence of curing depth on the process optical parameters and ink chemical properties are explained. Developments in DLP platform design and ink selection are summarized, and the roles of monomer structure and molecular weight on printing resolution are shown by experimental data. A detailed guideline is presented to help engineers and scientists to select inks and optical parameters for fabricating functional structures for multi-material and 4D printing.

AB - Digital light processing (DLP) 3D printing has become a powerful manufacturing tool for the fast fabrication of complex functional structures. The rapid progress in DLP 3D printing has been linked to research on optical design factors and ink selection. This critical review highlights the main challenges in the DLP 3D printing of photopolymerizable inks. The kinetics equations of photopolymerization reaction in a DLP printer are solved, and the dependence of curing depth on the process optical parameters and ink chemical properties are explained. Developments in DLP platform design and ink selection are summarized, and the roles of monomer structure and molecular weight on printing resolution are shown by experimental data. A detailed guideline is presented to help engineers and scientists to select inks and optical parameters for fabricating functional structures for multi-material and 4D printing.

KW - Digital light processing

KW - 3D printing

KW - Photosensitive monomer

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KW - Resolution improvement

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KW - MICROFABRICATION

KW - HYDROGELS

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