Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites

Sisal-carbon hybrid composites were produced from mixtures having different weight ratios of sisal, carbon fibers and recycled polypropylene. All formulations were tested and evaluated for tensile and flexural properties. In addition, the thermal stability of the sisal-carbon hybrid composites were...

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Autores principales: Tufan,Mürsit, Akbas,Selçuk, Aslan,Mustafa
Lenguaje:English
Publicado: Universidad del Bío-Bío 2016
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Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-221X2016000400008
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spelling oai:scielo:S0718-221X20160004000082016-10-13Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid compositesTufan,MürsitAkbas,SelçukAslan,Mustafa Coniophora puteana mechanical properties modulus of elasticity modulus of rupture Pinus sylvestris thermogravimetric analysis Trametes versicolor Sisal-carbon hybrid composites were produced from mixtures having different weight ratios of sisal, carbon fibers and recycled polypropylene. All formulations were tested and evaluated for tensile and flexural properties. In addition, the thermal stability of the sisal-carbon hybrid composites were examined via thermogravimetric analysis and decay tests were conducted to determine the degradation of the hybrid composites. Results showed that the biological durability and mechanical and thermal properties improved with the increasing weight ratios of carbon fiber in the hybrid composites. According to the mechanical tests, the optimum hybrid composite formulation was found to be 12% sisal fiber + 28% carbon fiber + 60% rPP.info:eu-repo/semantics/openAccessUniversidad del Bío-BíoMaderas. Ciencia y tecnología v.18 n.4 20162016-01-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-221X2016000400008en10.4067/S0718-221X2016005000052
institution Scielo Chile
collection Scielo Chile
language English
topic Coniophora puteana
mechanical properties
modulus of elasticity
modulus of rupture
Pinus sylvestris
thermogravimetric analysis
Trametes versicolor
spellingShingle Coniophora puteana
mechanical properties
modulus of elasticity
modulus of rupture
Pinus sylvestris
thermogravimetric analysis
Trametes versicolor
Tufan,Mürsit
Akbas,Selçuk
Aslan,Mustafa
Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
description Sisal-carbon hybrid composites were produced from mixtures having different weight ratios of sisal, carbon fibers and recycled polypropylene. All formulations were tested and evaluated for tensile and flexural properties. In addition, the thermal stability of the sisal-carbon hybrid composites were examined via thermogravimetric analysis and decay tests were conducted to determine the degradation of the hybrid composites. Results showed that the biological durability and mechanical and thermal properties improved with the increasing weight ratios of carbon fiber in the hybrid composites. According to the mechanical tests, the optimum hybrid composite formulation was found to be 12% sisal fiber + 28% carbon fiber + 60% rPP.
author Tufan,Mürsit
Akbas,Selçuk
Aslan,Mustafa
author_facet Tufan,Mürsit
Akbas,Selçuk
Aslan,Mustafa
author_sort Tufan,Mürsit
title Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
title_short Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
title_full Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
title_fullStr Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
title_full_unstemmed Decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
title_sort decay resistance, thermal degradation, tensile and flexural properties of sisal carbon hybrid composites
publisher Universidad del Bío-Bío
publishDate 2016
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-221X2016000400008
work_keys_str_mv AT tufanmursit decayresistancethermaldegradationtensileandflexuralpropertiesofsisalcarbonhybridcomposites
AT akbasselcuk decayresistancethermaldegradationtensileandflexuralpropertiesofsisalcarbonhybridcomposites
AT aslanmustafa decayresistancethermaldegradationtensileandflexuralpropertiesofsisalcarbonhybridcomposites
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