Effect of surface treatments on interfacial properties of natural intralaminar hybrid composites

The objective of this work was to analyze the influence of the alkalization and alkalization + silanization (mixed) treatments on the interfacial adhesion and mechanical properties of intralaminar hybrid composites (jute + sisal, jute + curauá, jute + ramie, and jute + glass fiber). Single‐fiber ten...

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Veröffentlicht in:	Polymer composites 2020-01, Vol.41 (1), p.314-325
Hauptverfasser:	de Araujo Alves Lima, Rosemere, Kawasaki Cavalcanti, Daniel, de Souza e Silva Neto, Jorge, Meneses da Costa, Hector, Banea, Mariana Doina
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Sprache:	eng
Schlagworte:	Adhesion Alkalizing Chemical treatment Fibers fragmentation Glass fibers Hybrid composites Interfacial properties intralaminar hybrid composites Jute Mechanical properties Morphology natural fibers Organic chemistry short beam test Sisal Tensile strength Tensile tests
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creator	de Araujo Alves Lima, Rosemere Kawasaki Cavalcanti, Daniel de Souza e Silva Neto, Jorge Meneses da Costa, Hector Banea, Mariana Doina
description	The objective of this work was to analyze the influence of the alkalization and alkalization + silanization (mixed) treatments on the interfacial adhesion and mechanical properties of intralaminar hybrid composites (jute + sisal, jute + curauá, jute + ramie, and jute + glass fiber). Single‐fiber tensile tests, fragmentation, and short beam tests were performed. Finally, a SEM analysis was used to study the influence of surface chemical treatments on the morphology of the natural fibers used. SEM images showed that the chemical treatments altered the morphology of the natural fibers. The chemical treatments improved the tensile strength of the fibers studied. It was found that the alkaline treatment is the best suited for jute, ramie, and curauá fibers, while the sisal fiber presented the best results after the mixed treatment. The superficial chemical treatments also affect the interfacial/interlaminar adhesion of the hybrid composites studied here. The best superficial treatments for each type of hybrid composite were: alkaline treatment for jute + ramie and jute + sisal, while for jute + curauá the best results were obtained for the untreated specimens.
doi_str_mv	10.1002/pc.25371
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Single‐fiber tensile tests, fragmentation, and short beam tests were performed. Finally, a SEM analysis was used to study the influence of surface chemical treatments on the morphology of the natural fibers used. SEM images showed that the chemical treatments altered the morphology of the natural fibers. The chemical treatments improved the tensile strength of the fibers studied. It was found that the alkaline treatment is the best suited for jute, ramie, and curauá fibers, while the sisal fiber presented the best results after the mixed treatment. The superficial chemical treatments also affect the interfacial/interlaminar adhesion of the hybrid composites studied here. 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Single‐fiber tensile tests, fragmentation, and short beam tests were performed. Finally, a SEM analysis was used to study the influence of surface chemical treatments on the morphology of the natural fibers used. SEM images showed that the chemical treatments altered the morphology of the natural fibers. The chemical treatments improved the tensile strength of the fibers studied. It was found that the alkaline treatment is the best suited for jute, ramie, and curauá fibers, while the sisal fiber presented the best results after the mixed treatment. The superficial chemical treatments also affect the interfacial/interlaminar adhesion of the hybrid composites studied here. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Adhesion Alkalizing Chemical treatment Fibers fragmentation Glass fibers Hybrid composites Interfacial properties intralaminar hybrid composites Jute Mechanical properties Morphology natural fibers Organic chemistry short beam test Sisal Tensile strength Tensile tests
title	Effect of surface treatments on interfacial properties of natural intralaminar hybrid composites
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