UV Radiation Crosslinking of Acrylated Palm Olein (APO) Copolymer Resins for 3D Printing

Siti Nurul Syafika Sheikh Ibrahim; Mat Uzir Wahit; Marina Talib; Norhayani Othman; Nor Azwin Shukri; Farah Fadzehah Hilmi; Muhammad Amirul Arshad

doi:10.4028/p-h1u335

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 908UV Radiation Crosslinking of Acrylated Palm Olein...

UV Radiation Crosslinking of Acrylated Palm Olein (APO) Copolymer Resins for 3D Printing

Abstract:

Generally, only a few especially acrylic monomers have photoabsorption characteristics to allow for effective stereolithography (STL) to take place. Biomaterial product from palm oil, Acrylated Palm Olein (APO), is seen as an ideal alternative to petroleum-based polymers due the diminishing petrochemical supply and abundant of the natural polymer in the market. In this study, APO as a biopolymer is introduced to synthetic polymers Polyethylene Glycol Dimethylacrylate (PEGDMA) and Polyethylene Glycol Diacrylate (PEGDA), separately. All three polymers offer photoabsorption characteristics that enable them to be the resins for ultraviolet (UV) 3D printing. The crosslinking of both copolymers is optimized by comparing two different UV radiation techniques; UV cured machine and UV STL 3D printer. The degree of crosslinking for both APO-co-PEGDMA and APO-co-PEGDA through gel fraction analysis are studied and compared with their prepolymer resins. As predicted, the maximum degree of crosslinking of APO-co-PEGDMA and APO-co-PEGDA samples are achieved from the fabrication of samples by 3D printing and recorded at 67.50% and 59.50% respectively, comparing to the samples cured by UV cure machine, which recorded maximum crosslinking percentage at only 21.31%. Further analysis is done using swelling test to study water absorption capacities of copolymers and results shows that APO-co-PEGDMA able to retain water at maximum of 42.47% and APO-co-PEGDA at 52.02% from the 3D printed samples, and recorded lowest readings at 22.82% and 25.56% respectively. UV cured samples are recorded to have lowest readings at 3.89% for APO-co-PEGDMA, and 4.23% for APO-co-PEGDA. Fourier Transform Infrared (FTIR) Spectroscopy confirmed the successful crosslinked of the copolymers. Analysis of FTIR shows that there are presence of new peaks and shifting of peaks, indicating that APO is crosslinked with PEGDMA backbone as well as PEGDA backbone. These also suggest that both polymers are suitable to be incorporated with APO as new photopolymer resins, fabricated using UV radiation crosslinking, with PEGDMA shown a slightly better result. All results are agreeable with FTIR results.

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Periodical:

Key Engineering Materials (Volume 908)

Pages:

39-48

DOI:

https://doi.org/10.4028/p-h1u335

Citation:

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Online since:

January 2022

Authors:

Siti Nurul Syafika Sheikh Ibrahim*, Mat Uzir Wahit, Marina Talib, Norhayani Othman, Nor Azwin Shukri, Farah Fadzehah Hilmi, Muhammad Amirul Arshad

Keywords:

3D Printing, Biopolymer, Crosslinking, Curing, FTIR, Palm Olein, Radiation

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References

[1] Bryant SJ, Nuttelman CR, Anseth KS, Cytocompatibility of UV and visible light photoinitiating systems on cultured NIH/3T3 fibroblasts in vitro. J Biomater Sci Polym Ed (2000) 11: 439–457.