Considerations of functional fluoropolymer structure in the design of acrylic–fluorine hybrid PSAs: Graft versus telechelic cooligomers |
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Authors: | Yu Wang Shuai Sun Ning Li Yongping Bai Xiaoqiang Zheng |
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Affiliation: | 1. Department of Polymer Science and Engineering, School of Chemistry and Chemical Engineering, Harbin Institute of Technology, Harbin, China;2. Harbin Institute of Technology Wuxi Research Institute of New Materials, Wuxi, China;3. Wuxi Longchi Fluorinated Silicone New materials Co. Ltd., Wuxi, China |
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Abstract: | The objectives of this present article are to design and compare novel acrylic‐fluorine networks as the replacement of fluorinated polyacylate for adhesives application. Firstly, two effective strategies have been developed to achieve functional poly(VDF‐co‐HFP) copolymers based on commercial fluoropolymers. The first approach extensively involved the facile chemical degradation of commercial poly(VDF‐co‐HFP) copolymers to obtain telechelic cooligomers. The second route dealt with the preparation of functional fluoropolymers grafted by multiplex acrylate. Then these two functional and original products were applied as precursors of acrylic‐fluorine hybrid networks in situ polymerization with acrylic monomers. In contrast to original fluoropolymers, functional poly(VDF‐co‐HFP) copolymers exhibited better compatibility with acrylic chain, especially after crosslinking by aluminium acetylacetonate. Additionally, the surface properties of acrylic‐fluorine hybrid networks were discussed based on the SEM and contact angle test. Finally, the peel strength and shear holding power measurements indicated that acrylic‐fluorine hybrid networks can find their potential applications in low surface energy fluorinated PSAs. © 2017 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2018 , 135, 46038. |
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Keywords: | adhesives compatibilization elastomers functionalization of polymers |
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