Effect of functionality of diluents on digital light processing (DLP) based three‐dimensional (3D) printing of UV‐curable bisphenol A‐based epoxy acrylate resin

Digital light processing (DLP) based three‐dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing accuracy and printing speed. In our research, we have synthesized and modified the bisphenol A‐based epoxy acrylate resin for the DLP 3D pri...

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Published inPolymer engineering and science Vol. 64; no. 5; pp. 2202 - 2213
Main Authors Rade, Priyanka, Swami, Shubhangi, Pawane, Varsha, Hawaldar, Ranjit, Giramkar, Vijaya, Joseph, Shany, Kale, Bharat
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.05.2024
Society of Plastics Engineers, Inc
Blackwell Publishing Ltd
Subjects
3-D printers
3D printing
Accuracy
Acrylic resins
Bisphenol A
diluents
DLP
epoxy acrylate
Epoxy resins
Mechanical properties
Phenols
photoinitiator
Photoinitiators
Process parameters
Resins
Technology application
Tensile strength
Three dimensional printing
Viscosity
Water absorption
Online AccessGet full text
ISSN0032-3888
1548-2634
DOI10.1002/pen.26686

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Abstract Digital light processing (DLP) based three‐dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing accuracy and printing speed. In our research, we have synthesized and modified the bisphenol A‐based epoxy acrylate resin for the DLP 3D printer having a printing accuracy of 50 μm. As the viscosity plays an important role in printing accuracy, the resin was modified with mono‐functional, di‐functional, tri‐functional, and combination of di‐tri functional acrylate diluents as well as with photoinitiator to achieve the desired level of viscosity. The process parameters like curing time and intensity were optimized using the DLP 3D printer. The uncured and UV‐cured samples were characterized using FTIR‐ATR, 1HNMR, UV–VISIBLE, and TGA techniques. The analysis of the uncured and UV‐cured samples was carried out using viscosity, gel content, water absorption, and chemical resistance test. The mechanical properties of the UV‐cured samples were determined using hardness and tensile strength test. The 3D‐printed samples were observed under high‐resolution microscope to confirm the printing quality and resolution. The resulting outcome confirmed that the proper selection of diluents is an important parameter for achieving the good quality and resolution of samples printed using the DLP 3D printer technology. Highlights Synthesis and modification of UV‐curable resin Selection of diluents for controlling the processablility of UV‐curable resin Optimization of process parameters for DLP based 3D printer 3D printing of samples having good quality, resolution and feature size. Digital light processing (DLP) based three‐dimensional (3D) printing of epoxy acrylate resin.
AbstractList Digital light processing (DLP) based three‐dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing accuracy and printing speed. In our research, we have synthesized and modified the bisphenol A‐based epoxy acrylate resin for the DLP 3D printer having a printing accuracy of 50 μm. As the viscosity plays an important role in printing accuracy, the resin was modified with mono‐functional, di‐functional, tri‐functional, and combination of di‐tri functional acrylate diluents as well as with photoinitiator to achieve the desired level of viscosity. The process parameters like curing time and intensity were optimized using the DLP 3D printer. The uncured and UV‐cured samples were characterized using FTIR‐ATR, 1HNMR, UV–VISIBLE, and TGA techniques. The analysis of the uncured and UV‐cured samples was carried out using viscosity, gel content, water absorption, and chemical resistance test. The mechanical properties of the UV‐cured samples were determined using hardness and tensile strength test. The 3D‐printed samples were observed under high‐resolution microscope to confirm the printing quality and resolution. The resulting outcome confirmed that the proper selection of diluents is an important parameter for achieving the good quality and resolution of samples printed using the DLP 3D printer technology.HighlightsSynthesis and modification of UV‐curable resinSelection of diluents for controlling the processablility of UV‐curable resinOptimization of process parameters for DLP based 3D printer3D printing of samples having good quality, resolution and feature size.
Digital light processing (DLP) based three-dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing accuracy and printing speed. In our research, we have synthesized and modified the bisphenol A-based epoxy acrylate resin for the DLP 3D printer having a printing accuracy of 50 [micro]m. As the viscosity plays an important role in printing accuracy, the resin was modified with mono-functional, di-functional, tri-functional, and combination of di-tri functional acrylate diluents as well as with photoinitiator to achieve the desired level of viscosity. The process parameters like curing time and intensity were optimized using the DLP 3D printer. The uncured and UV-cured samples were characterized using FTIR-ATR, [sup.1]NMR, UV-VISIBLE, and TGA techniques. The analysis of the uncured and UV-cured samples was carried out using viscosity, gel content, water absorption, and chemical resistance test. The mechanical properties of the UV-cured samples were determined using hardness and tensile strength test. The 3D-printed samples were observed under high-resolution microscope to confirm the printing quality and resolution. The resulting outcome confirmed that the proper selection of diluents is an important parameter for achieving the good quality and resolution of samples printed using the DLP 3D printer technology.
Digital light processing (DLP) based three‐dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing accuracy and printing speed. In our research, we have synthesized and modified the bisphenol A‐based epoxy acrylate resin for the DLP 3D printer having a printing accuracy of 50 μm. As the viscosity plays an important role in printing accuracy, the resin was modified with mono‐functional, di‐functional, tri‐functional, and combination of di‐tri functional acrylate diluents as well as with photoinitiator to achieve the desired level of viscosity. The process parameters like curing time and intensity were optimized using the DLP 3D printer. The uncured and UV‐cured samples were characterized using FTIR‐ATR, 1HNMR, UV–VISIBLE, and TGA techniques. The analysis of the uncured and UV‐cured samples was carried out using viscosity, gel content, water absorption, and chemical resistance test. The mechanical properties of the UV‐cured samples were determined using hardness and tensile strength test. The 3D‐printed samples were observed under high‐resolution microscope to confirm the printing quality and resolution. The resulting outcome confirmed that the proper selection of diluents is an important parameter for achieving the good quality and resolution of samples printed using the DLP 3D printer technology. Highlights Synthesis and modification of UV‐curable resin Selection of diluents for controlling the processablility of UV‐curable resin Optimization of process parameters for DLP based 3D printer 3D printing of samples having good quality, resolution and feature size. Digital light processing (DLP) based three‐dimensional (3D) printing of epoxy acrylate resin.
Audience Academic
Author Joseph, Shany
Swami, Shubhangi
Hawaldar, Ranjit
Kale, Bharat
Rade, Priyanka
Pawane, Varsha
Giramkar, Vijaya
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crossref_primary_10_1021_acsmacrolett_4c00600
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Snippet Digital light processing (DLP) based three‐dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing...
Digital light processing (DLP) based three-dimensional (3D) printing technology which uses photocurable resin has been a center of interest due to its printing...
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SubjectTerms 3-D printers
3D printing
Accuracy
Acrylic resins
Bisphenol A
diluents
DLP
epoxy acrylate
Epoxy resins
Mechanical properties
Phenols
photoinitiator
Photoinitiators
Process parameters
Resins
Technology application
Tensile strength
Three dimensional printing
Viscosity
Water absorption
Title Effect of functionality of diluents on digital light processing (DLP) based three‐dimensional (3D) printing of UV‐curable bisphenol A‐based epoxy acrylate resin
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fpen.26686
https://www.proquest.com/docview/3049514678
Volume 64
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