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Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics

Carbon fabrics are widely used in polymer based composites. Nowadays, most of the advanced high-performance composites are based on thermosetting polymer matrices such as epoxy resin. Thermoplastics have received high attention as polymer matrices due to their low curing duration, high chemical resi...

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Autores principales: Chukov, Dilyus I., Nematulloev, Sarvarkhodza G., Tсherdyntsev, Viсtor V., Torokhov, Valerii G., Stepashkin, Andrey A., Zadorozhnyy, Mikhail Y., Zherebtsov, Dmitry D., Sherif, Galal
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7023570/
https://www.ncbi.nlm.nih.gov/pubmed/31905905
http://dx.doi.org/10.3390/polym12010050
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author Chukov, Dilyus I.
Nematulloev, Sarvarkhodza G.
Tсherdyntsev, Viсtor V.
Torokhov, Valerii G.
Stepashkin, Andrey A.
Zadorozhnyy, Mikhail Y.
Zherebtsov, Dmitry D.
Sherif, Galal
author_facet Chukov, Dilyus I.
Nematulloev, Sarvarkhodza G.
Tсherdyntsev, Viсtor V.
Torokhov, Valerii G.
Stepashkin, Andrey A.
Zadorozhnyy, Mikhail Y.
Zherebtsov, Dmitry D.
Sherif, Galal
author_sort Chukov, Dilyus I.
collection PubMed
description Carbon fabrics are widely used in polymer based composites. Nowadays, most of the advanced high-performance composites are based on thermosetting polymer matrices such as epoxy resin. Thermoplastics have received high attention as polymer matrices due to their low curing duration, high chemical resistance, high recyclability, and mass production capability in comparison with thermosetting polymers. In this paper, we suggest thermoplastic based composite materials reinforced with carbon fibers. Composites based on polysulfone reinforced with carbon fabrics using polymer solvent impregnation were studied. It is well known that despite the excellent mechanical properties, carbon fibers possess poor wettability and adhesion to polymers because of the fiber surface chemical inertness and smoothness. Therefore, to improve the fiber–matrix interfacial interaction, the surface modification of the carbon fibers by thermal oxidation was used. It was shown that the surface modification resulted in a noticeable change in the functional composition of the carbon fibers’ surface and increased the mechanical properties of the polysulfone based composites. Significant increase in composites mechanical properties and thermal stability as a result of carbon fiber surface modification was observed.
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spelling pubmed-70235702020-03-12 Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics Chukov, Dilyus I. Nematulloev, Sarvarkhodza G. Tсherdyntsev, Viсtor V. Torokhov, Valerii G. Stepashkin, Andrey A. Zadorozhnyy, Mikhail Y. Zherebtsov, Dmitry D. Sherif, Galal Polymers (Basel) Article Carbon fabrics are widely used in polymer based composites. Nowadays, most of the advanced high-performance composites are based on thermosetting polymer matrices such as epoxy resin. Thermoplastics have received high attention as polymer matrices due to their low curing duration, high chemical resistance, high recyclability, and mass production capability in comparison with thermosetting polymers. In this paper, we suggest thermoplastic based composite materials reinforced with carbon fibers. Composites based on polysulfone reinforced with carbon fabrics using polymer solvent impregnation were studied. It is well known that despite the excellent mechanical properties, carbon fibers possess poor wettability and adhesion to polymers because of the fiber surface chemical inertness and smoothness. Therefore, to improve the fiber–matrix interfacial interaction, the surface modification of the carbon fibers by thermal oxidation was used. It was shown that the surface modification resulted in a noticeable change in the functional composition of the carbon fibers’ surface and increased the mechanical properties of the polysulfone based composites. Significant increase in composites mechanical properties and thermal stability as a result of carbon fiber surface modification was observed. MDPI 2019-12-30 /pmc/articles/PMC7023570/ /pubmed/31905905 http://dx.doi.org/10.3390/polym12010050 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Chukov, Dilyus I.
Nematulloev, Sarvarkhodza G.
Tсherdyntsev, Viсtor V.
Torokhov, Valerii G.
Stepashkin, Andrey A.
Zadorozhnyy, Mikhail Y.
Zherebtsov, Dmitry D.
Sherif, Galal
Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title_full Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title_fullStr Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title_full_unstemmed Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title_short Structure and Properties of Polysulfone Filled with Modified Twill Weave Carbon Fabrics
title_sort structure and properties of polysulfone filled with modified twill weave carbon fabrics
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7023570/
https://www.ncbi.nlm.nih.gov/pubmed/31905905
http://dx.doi.org/10.3390/polym12010050
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