Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

While mineral concretes belong to the oldest composites used by mankind, in an increasing number of applications their compression strength σc and compressive strain at yield point εY are insufficient. Better results can be achieved with polymer concretes (PCs). We use a polymer co...

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Bibliographic Details
Format: Article
Language:English
Published: Budapest University of Technology 2009-10-01
Series:eXPRESS Polymer Letters
Subjects:
Polymer composites
reinforcements
polymer concrete
gamma irradiation
Online Access:http://www.expresspolymlett.com/letolt.php?file=EPL-0000981&mi=cd
id doaj-fe27d1241ad04ddc9dff23031c1666d5
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spelling doaj-fe27d1241ad04ddc9dff23031c1666d52020-11-24T20:55:17ZengBudapest University of Technology eXPRESS Polymer Letters1788-618X2009-10-0131061562010.3144/expresspolymlett.2009.77Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sandWhile mineral concretes belong to the oldest composites used by mankind, in an increasing number of applications their compression strength σc and compressive strain at yield point εY are insufficient. Better results can be achieved with polymer concretes (PCs). We use a polymer concrete (PC): an unsaturated polyester resin as the matrix, CaCO3 and silica sand. Moreover, we have applied two further methods to improve its mechanical properties: reinforcement with polyester fibers and gamma irradiation with a 60Co source. A non-irradiated PC with 5 wt% CaCO3 has σc = 74 MPa, an irradiated sample with optimized CaCO3 contents 122 MPa. Scanning electron micrographs show that irradiation increases the interface areas between the fibers and the matrix. Improvements from 47 to 176% in εY values are achieved with respect to the conventional PC without fibers, non-irradiated and containing only one mineral component. http://www.expresspolymlett.com/letolt.php?file=EPL-0000981&mi=cdPolymer compositesreinforcementspolymer concretegamma irradiation
collection DOAJ
language English
format Article
sources DOAJ
title Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
spellingShingle Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
eXPRESS Polymer Letters
Polymer composites
reinforcements
polymer concrete
gamma irradiation
title_short Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
title_full Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
title_fullStr Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
title_full_unstemmed Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand
title_sort effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing caco3 and silica sand
publisher Budapest University of Technology
series eXPRESS Polymer Letters
issn 1788-618X
publishDate 2009-10-01
description While mineral concretes belong to the oldest composites used by mankind, in an increasing number of applications their compression strength σc and compressive strain at yield point εY are insufficient. Better results can be achieved with polymer concretes (PCs). We use a polymer concrete (PC): an unsaturated polyester resin as the matrix, CaCO3 and silica sand. Moreover, we have applied two further methods to improve its mechanical properties: reinforcement with polyester fibers and gamma irradiation with a 60Co source. A non-irradiated PC with 5 wt% CaCO3 has σc = 74 MPa, an irradiated sample with optimized CaCO3 contents 122 MPa. Scanning electron micrographs show that irradiation increases the interface areas between the fibers and the matrix. Improvements from 47 to 176% in εY values are achieved with respect to the conventional PC without fibers, non-irradiated and containing only one mineral component.
topic Polymer composites
reinforcements
polymer concrete
gamma irradiation
url http://www.expresspolymlett.com/letolt.php?file=EPL-0000981&mi=cd
_version_ 1716791924285767680

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