Improve the Interfacial Properties between Poly(arylene sulfide sulfone) and Carbon Fiber by Double Polymeric Grafted Layers Designed on a Carbon Fiber Surface

Double polymeric grafted layer is constructed by two steps of chemical reaction, in which two polymers had been used, respectively polydopamine (PDA) film and modified PASS (NH2–PASS) resin containing amine group, as the interphase in carbon fiber reinforced poly­(arylene sulfide sulfone) (PASS) com...

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Bibliographic Details
Published in:Langmuir 2022-09, Vol.38 (36), p.10975-10985
Main Authors: Zhang, Tong, Fu, Xiao-bo, Leng, Huai-sen, Liu, Sui-lin, Long, Sheng-ru, Yang, Jia-cao, Zhang, Gang, Wang, Xiao-jun, Yang, Jie
Format: Article
Language:English
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Summary:Double polymeric grafted layer is constructed by two steps of chemical reaction, in which two polymers had been used, respectively polydopamine (PDA) film and modified PASS (NH2–PASS) resin containing amine group, as the interphase in carbon fiber reinforced poly­(arylene sulfide sulfone) (PASS) composite (CF/PASS) to work on enhancing the interfacial property. All the test results of chemical components and chemical structures on the carbon fiber surface show that the double polymeric grafted layer was constructed successfully with PDA and NH2–PASS chains. And obvious characteristics of thin PDA film and a polymer layer can be clearly seen in the morphology of modified carbon fiber. In addition to this, the obvious interphase and change in the thickness of interphase have been observed in the modulus distribution images of CF/PASS. The final superb performance is achieved by PASS composites with a double polymeric grafted layer, 27.2% and 198.6% superior to the original PASS composite for IFSS and ILSS, respectively. Moreover, the result also indicates that constructing a double polymeric grafted layer on a carbon fiber surface is a promising technique to modify carbon fiber for processing high-performance advanced thermoplastic composites and is more environmental friendly as well as convenient.
ISSN:0743-7463
1520-5827
DOI:10.1021/acs.langmuir.2c01381