Isothermal crystallization kinetics and mechanical properties of PLA/Kenaf biocomposite: Comparison between alkaline treated kenaf core and bast reinforcement

•Comparable Kenaf bast & core PLA composites flexural properties.•Comparable Kenaf bast & core PLA composites kinetics.•The insight of crystal growth thorugh Avrami model. Crystallization kinetics and mechanical properties of alkaline treated kenaf core and bast fibres as reinforcement in PL...

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Veröffentlicht in:	Materials letters 2022-07, Vol.319, p.132294, Article 132294
Hauptverfasser:	Fatriansyah, Jaka Fajar, Surip, Siti Norasmah, Wan Jaafar, Wan Nor Raihan, Phasa, Agita, Uyup, Mohd Khairun Anwar, Suhariadi, Iping
Format:	Artikel
Sprache:	eng
Schlagworte:	Avrami equation Biocomposites Biomedical materials Composite materials Crystallization Flexural strength Kenaf Kenaf fibre Kinetics Materials science Mechanical properties Modulus of rupture in bending Polylactic acid Thermal properties Vegetable fibers
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description	•Comparable Kenaf bast & core PLA composites flexural properties.•Comparable Kenaf bast & core PLA composites kinetics.•The insight of crystal growth thorugh Avrami model. Crystallization kinetics and mechanical properties of alkaline treated kenaf core and bast fibres as reinforcement in PLA composites were investigated. The crystallization rate and the percentage of crystallinity values were comparable in both samples, where the values were found to be 1.239 and 49.46% for KCC and 1.119 and 47.28% for KBC, respectively. The addition of kenaf fibre revealed the same reduction of the Avrami index at around 13% for both KBC and KCC indicating that the addition of fibre promotes growth in less spatial dimensions. The improvement on kinetics properties was supported by flexural testing that showed that there is no significant difference in flexural modulus and flexural strength between Kenaf core composite (KCC) and Kenaf bast composite (KBC). These findings shed a light on the potential utilization of kenaf core fibre as filler in matrix composite.
doi_str_mv	10.1016/j.matlet.2022.132294
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Crystallization kinetics and mechanical properties of alkaline treated kenaf core and bast fibres as reinforcement in PLA composites were investigated. The crystallization rate and the percentage of crystallinity values were comparable in both samples, where the values were found to be 1.239 and 49.46% for KCC and 1.119 and 47.28% for KBC, respectively. The addition of kenaf fibre revealed the same reduction of the Avrami index at around 13% for both KBC and KCC indicating that the addition of fibre promotes growth in less spatial dimensions. The improvement on kinetics properties was supported by flexural testing that showed that there is no significant difference in flexural modulus and flexural strength between Kenaf core composite (KCC) and Kenaf bast composite (KBC). 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Crystallization kinetics and mechanical properties of alkaline treated kenaf core and bast fibres as reinforcement in PLA composites were investigated. The crystallization rate and the percentage of crystallinity values were comparable in both samples, where the values were found to be 1.239 and 49.46% for KCC and 1.119 and 47.28% for KBC, respectively. The addition of kenaf fibre revealed the same reduction of the Avrami index at around 13% for both KBC and KCC indicating that the addition of fibre promotes growth in less spatial dimensions. The improvement on kinetics properties was supported by flexural testing that showed that there is no significant difference in flexural modulus and flexural strength between Kenaf core composite (KCC) and Kenaf bast composite (KBC). 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Crystallization kinetics and mechanical properties of alkaline treated kenaf core and bast fibres as reinforcement in PLA composites were investigated. The crystallization rate and the percentage of crystallinity values were comparable in both samples, where the values were found to be 1.239 and 49.46% for KCC and 1.119 and 47.28% for KBC, respectively. The addition of kenaf fibre revealed the same reduction of the Avrami index at around 13% for both KBC and KCC indicating that the addition of fibre promotes growth in less spatial dimensions. The improvement on kinetics properties was supported by flexural testing that showed that there is no significant difference in flexural modulus and flexural strength between Kenaf core composite (KCC) and Kenaf bast composite (KBC). These findings shed a light on the potential utilization of kenaf core fibre as filler in matrix composite.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.matlet.2022.132294</doi></addata></record>
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subjects	Avrami equation Biocomposites Biomedical materials Composite materials Crystallization Flexural strength Kenaf Kenaf fibre Kinetics Materials science Mechanical properties Modulus of rupture in bending Polylactic acid Thermal properties Vegetable fibers
title	Isothermal crystallization kinetics and mechanical properties of PLA/Kenaf biocomposite: Comparison between alkaline treated kenaf core and bast reinforcement
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