Novel carbon fibers reinforced composites based on polysulfone matrix
The aim of this study is to create composites based on the high-temperature polymer reinforced with the carbon fibers and to study interfacial interaction between carbon fibers and polymer matrix. We propose a new method to obtain polysulfone based composite materials reinforced with high-modulus ca...
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2018-01-01
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Series: | MATEC Web of Conferences |
Online Access: | https://doi.org/10.1051/matecconf/201824201004 |
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doaj-a16debc3dc7b478db051d4078d7f6b292021-03-02T10:30:27ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012420100410.1051/matecconf/201824201004matecconf_icafmc2018_01004Novel carbon fibers reinforced composites based on polysulfone matrixChukov Dilyus0Nematulloev Sarvarkhodzha1Stepashkin Andrey2Maksimkin Aleksey3Zherebtsov Dmitriy4Tcherdyntsev Victor5NUST “MISiS”, Center for composite materialsNUST “MISiS”, Center for composite materialsNUST “MISiS”, Center for composite materialsNUST “MISiS”, Center for composite materialsNUST “MISiS”, Center for composite materialsNUST “MISiS”, Center for composite materialsThe aim of this study is to create composites based on the high-temperature polymer reinforced with the carbon fibers and to study interfacial interaction between carbon fibers and polymer matrix. We propose a new method to obtain polysulfone based composite materials reinforced with high-modulus carbon fibers. The influences of thermal oxidation of carbon fibers on mechanical and thermal properties of the composites were studied. It was found that the obtained composite materials have sufficiently high mechanical properties, tensile strength up to 1047 MPa and Young’s modulus up to 70.9 GPa were found. Considerable interest to the polymer composites is associated with their high performance and good mechanical and thermal properties, which enable a broad range of aerospace, automotive and medical applications. Additionally, the manufacturing process of such composites can easily be optimized and automatized, furthermore, it is not time-consuming process in relation with thermosetting polymer based composites.https://doi.org/10.1051/matecconf/201824201004 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Chukov Dilyus Nematulloev Sarvarkhodzha Stepashkin Andrey Maksimkin Aleksey Zherebtsov Dmitriy Tcherdyntsev Victor |
spellingShingle |
Chukov Dilyus Nematulloev Sarvarkhodzha Stepashkin Andrey Maksimkin Aleksey Zherebtsov Dmitriy Tcherdyntsev Victor Novel carbon fibers reinforced composites based on polysulfone matrix MATEC Web of Conferences |
author_facet |
Chukov Dilyus Nematulloev Sarvarkhodzha Stepashkin Andrey Maksimkin Aleksey Zherebtsov Dmitriy Tcherdyntsev Victor |
author_sort |
Chukov Dilyus |
title |
Novel carbon fibers reinforced composites based on polysulfone matrix |
title_short |
Novel carbon fibers reinforced composites based on polysulfone matrix |
title_full |
Novel carbon fibers reinforced composites based on polysulfone matrix |
title_fullStr |
Novel carbon fibers reinforced composites based on polysulfone matrix |
title_full_unstemmed |
Novel carbon fibers reinforced composites based on polysulfone matrix |
title_sort |
novel carbon fibers reinforced composites based on polysulfone matrix |
publisher |
EDP Sciences |
series |
MATEC Web of Conferences |
issn |
2261-236X |
publishDate |
2018-01-01 |
description |
The aim of this study is to create composites based on the high-temperature polymer reinforced with the carbon fibers and to study interfacial interaction between carbon fibers and polymer matrix. We propose a new method to obtain polysulfone based composite materials reinforced with high-modulus carbon fibers. The influences of thermal oxidation of carbon fibers on mechanical and thermal properties of the composites were studied. It was found that the obtained composite materials have sufficiently high mechanical properties, tensile strength up to 1047 MPa and Young’s modulus up to 70.9 GPa were found. Considerable interest to the polymer composites is associated with their high performance and good mechanical and thermal properties, which enable a broad range of aerospace, automotive and medical applications. Additionally, the manufacturing process of such composites can easily be optimized and automatized, furthermore, it is not time-consuming process in relation with thermosetting polymer based composites. |
url |
https://doi.org/10.1051/matecconf/201824201004 |
work_keys_str_mv |
AT chukovdilyus novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix AT nematulloevsarvarkhodzha novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix AT stepashkinandrey novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix AT maksimkinaleksey novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix AT zherebtsovdmitriy novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix AT tcherdyntsevvictor novelcarbonfibersreinforcedcompositesbasedonpolysulfonematrix |
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1724236761235718144 |