Room-Temperature Solid-State UV Cross-Linkable Vitrimer-like Polymers for Additive Manufacturing

• Published in: Polymers Vol. 14; no. 11; p. 2203
• Main Authors: Chen, Jian, Wen, Ya, Zeng, Lingyi, Wang, Xinchun, Chen, Hongmei, Huang, Wei Min, Bai, Yuefeng, Yu, Wenhao, Zhao, Keqing, Hu, Ping
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 29.05.2022; MDPI
• Subjects: 3-D printers; 3D printing; Additive manufacturing; Bonding strength; cross-linking; Crosslinked polymers; Crosslinking; Fourier transforms; Fused deposition modeling; Hydrogen; Hydrogen bonding; Initiators; Interlayers; Manufacturing; Mechanical properties; Methods; NMR; Nuclear magnetic resonance; Polybutadiene; Polymers; Rapid solidification; Room temperature; Shape effects; Shape memory; shape memory effect; Solid state; Solvents; Spectrum analysis; Temperature; Ultraviolet radiation; vitrimer; Vitrimers; China; United States > US; vitrimer; additive manufacturing; cross-linking; shape memory effect
• ISSN: 2073-4360; 2073-4360
• DOI: 10.3390/polym14112203

In this paper, a UV cross-linkable vitrimer-like polymer, ureidopyrimidinone functionalized telechelic polybutadiene, is reported. It is synthesized in two steps. First, 2(6-isocyanatohexylaminocarbonylamino)-6-methyl-4[1H]-pyrimidinone (UPy-NCO) reacts with hydroxy-functionalized polybutadiene (HTPB) to obtain UPy-HTPB-UPy, and then the resulted UPy-HTPB-UPy is cross-linked under 365 nm UV light (photo-initiator: bimethoxy-2-phenylacetophenone, DMPA). Further investigation reveals that the density of cross-linking and mechanical properties of the resulting polymers can be tailored via varying the amount of photo-initiator and UV exposure time. Before UV cross-linking, UPy-HTPB-UPy is found to be vitrimer-like due to the quadruple hydrogen-bonding interactions. The UPy groups at the end of the chain also enable for rapid solidification upon the evaporation of the solvent. The unsaturated double bonds in the HTPB chains enable UPy-HTPB-UPy to be UV cross-linkable in the solid state at room temperature. After cross-linking, the polymers have good shape memory effect (SME). Here, we demonstrate that this type of polymer can have many potential applications in additive manufacturing. In the cases of fused deposition modelling (FDM) and direct ink writing (DIW), not only the strength of the interlayer bonding but also the strength of the polymer itself can be enhanced via UV exposure (from thermoplastic to thermoset) either during printing or after printing. The SME after cross-linking further helps to achieve rapid volumetric additive manufacturing anytime and anywhere.