Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport

Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport

The results of the experimental investigations of the optimization of the content of the polyester resin in the epoxy binder are shown in the work. It was determined that composite with concentration of the polyester (q = 10 mas.fr.) was characterized by the maximal values of the thermophysical prop...

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Main Authors: A. Buketov, M. Brailo, S. Yakushchenko, A. Sapronova
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Advances in Materials Science and Engineering
Online Access:http://dx.doi.org/10.1155/2018/6378782
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spelling doaj-d9feb694b3bc4f3b811233b0b39c55fe2020-11-24T20:43:39ZengHindawi LimitedAdvances in Materials Science and Engineering1687-84341687-84422018-01-01201810.1155/2018/63787826378782Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River TransportA. Buketov0M. Brailo1S. Yakushchenko2A. Sapronova3Department of Transport Technologies, Kherson State Maritime Academy, 20 Ushakova Ave., Kherson 73000, UkraineDepartment of Transport Technologies, Kherson State Maritime Academy, 20 Ushakova Ave., Kherson 73000, UkraineDepartment of Transport Technologies, Kherson State Maritime Academy, 20 Ushakova Ave., Kherson 73000, UkraineDepartment of Transport Technologies, Kherson State Maritime Academy, 20 Ushakova Ave., Kherson 73000, UkraineThe results of the experimental investigations of the optimization of the content of the polyester resin in the epoxy binder are shown in the work. It was determined that composite with concentration of the polyester (q = 10 mas.fr.) was characterized by the maximal values of the thermophysical properties. The Martens thermal resistance temperature, the linear shrinkage, the thermal coefficient of linear expansion, and the glass transition temperature of the epoxy-polyester matrix were investigated. It was found that introducing the polyester resin into the epoxy oligomer in quantity of q = 10 mas.fr. leads to improving the Martens thermal resistance of the material to the T = 352 K and decreasing the linear shrinkage to the Δl = 0.06%. The nonlinear dependence of the TCLE on the temperature was confirmed, and the tendency of changes in their values, depending on the content of polyester resin, was defined. The dilatometric curves were analyzed, and the glass transition temperature of developed epoxy-polyester matrix was determined at the level Tс = 318 K.http://dx.doi.org/10.1155/2018/6378782
collection DOAJ
language English
format Article
sources DOAJ
author A. Buketov
M. Brailo
S. Yakushchenko
A. Sapronova
spellingShingle A. Buketov
M. Brailo
S. Yakushchenko
A. Sapronova
Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
Advances in Materials Science and Engineering
author_facet A. Buketov
M. Brailo
S. Yakushchenko
A. Sapronova
author_sort A. Buketov
title Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
title_short Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
title_full Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
title_fullStr Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
title_full_unstemmed Development of Epoxy-Polyester Composite with Improved Thermophysical Properties for Restoration of Details of Sea and River Transport
title_sort development of epoxy-polyester composite with improved thermophysical properties for restoration of details of sea and river transport
publisher Hindawi Limited
series Advances in Materials Science and Engineering
issn 1687-8434
1687-8442
publishDate 2018-01-01
description The results of the experimental investigations of the optimization of the content of the polyester resin in the epoxy binder are shown in the work. It was determined that composite with concentration of the polyester (q = 10 mas.fr.) was characterized by the maximal values of the thermophysical properties. The Martens thermal resistance temperature, the linear shrinkage, the thermal coefficient of linear expansion, and the glass transition temperature of the epoxy-polyester matrix were investigated. It was found that introducing the polyester resin into the epoxy oligomer in quantity of q = 10 mas.fr. leads to improving the Martens thermal resistance of the material to the T = 352 K and decreasing the linear shrinkage to the Δl = 0.06%. The nonlinear dependence of the TCLE on the temperature was confirmed, and the tendency of changes in their values, depending on the content of polyester resin, was defined. The dilatometric curves were analyzed, and the glass transition temperature of developed epoxy-polyester matrix was determined at the level Tс = 318 K.
url http://dx.doi.org/10.1155/2018/6378782
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AT mbrailo developmentofepoxypolyestercompositewithimprovedthermophysicalpropertiesforrestorationofdetailsofseaandrivertransport
AT syakushchenko developmentofepoxypolyestercompositewithimprovedthermophysicalpropertiesforrestorationofdetailsofseaandrivertransport
AT asapronova developmentofepoxypolyestercompositewithimprovedthermophysicalpropertiesforrestorationofdetailsofseaandrivertransport
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