Composites consisting of propargyl-and allyl/propargyl-modified novolac resins and carbon fabric were obtained by the vacuum infusion molding process. It was established that the presence of potassium cations remaining after the synthesis increase the resin melt viscosity, and acid washing is needed to obtain resins suitable for cost-effective injection techniques of composite fabrication. The mechanical properties of all composites such as compressive strength, tensile strength, in plane shear strength, and interlaminar shear strength were determined at 25, 200 and 230 °С. The carbon fiber reinforced plastics (CFRPs) retained their mechanical properties at temperatures up to 200 °C. It was shown that the use of the obtained allyl-containing polymer matrices improved mechanical properties and increased the thermal stability of the CFRPs in comparison with the propargylated novolac matrices. The composite material with novolac matrices modified by 18% propargyl and 23% allyl groups retains only up to 70% of the initial inter laminar shear strength values at 230 °C which corresponds to the data of the dynamic mechanical analysis of neat cured resins.
CITATION STYLE
Nechausov, S., Bulgakov, B., Kalugin, D., Babkin, A., Kepman, A., Malakho, A., & Avdeev, V. (2020). Carbon fabric reinforced addition-cure phenolic resins based on propargyl and allyl ether functional novolac produced by vacuum infusion. Eurasian Chemico-Technological Journal, 22(2), 99–106. https://doi.org/10.18321/ectj956
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