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Effect of a novel treatment fiber on mechanical properties, thermal stability and crystallization behaviors of epoxy soybean oil toughened jute fiber/polypropylene composites

In this work, a novel fiber treatment method is introduced in the preparation of epoxy soybean oil (ESO) toughened jute fiber/polypropylene (PP) matrix composites. The jute fibers are pre‐treated by r‐valerolactone (GVL), and the ESO/jute fiber/PP composites are fabricated by melt blending. The micr...

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Published in:	Polymer composites 2020-08, Vol.41 (8), p.3227-3236
Main Authors:	He, Yong, Zhou, Ying, Wu, Hongming, Chen, Can, He, Weidi, Xu, Dinghong, Gao, Chengtao, Chen, Xiaolang, Wei, Fujian, Guo, Jianbing
Format:	Article
Language:	English
Subjects:	Aspect ratio composites Crystallization Elongation epoxy soybean oil Fiber composites Impact strength Jute jute fiber Mechanical properties Melt blending Polymer matrix composites Polypropylene Soybean oil Soybeans Tensile strength Thermal stability toughness
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cited_by	cdi_FETCH-LOGICAL-c3304-896f822470175cea4035806afe24e77e21139cca67b83176794c139bd7ab71173
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container_title	Polymer composites
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creator	He, Yong Zhou, Ying Wu, Hongming Chen, Can He, Weidi Xu, Dinghong Gao, Chengtao Chen, Xiaolang Wei, Fujian Guo, Jianbing
description	In this work, a novel fiber treatment method is introduced in the preparation of epoxy soybean oil (ESO) toughened jute fiber/polypropylene (PP) matrix composites. The jute fibers are pre‐treated by r‐valerolactone (GVL), and the ESO/jute fiber/PP composites are fabricated by melt blending. The microstructure of the treated fiber, the mechanical properties, thermal stability, and crystallization behaviors of the composites are investigated and discussed in detail. The results show that the surface of GVL treated fiber becomes rough and the aspect ratio increases. It is found by scanning electron microscopy (SEM) that the interface between the fiber and matrix debones seriously without the addition of ESO. With increasing the content of ESO, the toughness and thermal stability of the composites are gradually improved. The tensile strength of the composites containing 5% ESO reaches 42.2 MPa. In addition, the impact strength and elongation at break are higher than pure PP and PP/jute composites. Moreover, GVL treated fibers can improve the thermal stability of PP/jute fiber composites. In addition, the crystallinity of PP in the PP composites increases first and then decreases, while the crystallization temperature of the composites decreases. At the same time, the complex viscosity of the composites also increases. Storage modulus and the transition temperature (tanδ) of PP and its composites with various content of ESO. SEM images of the fractured surfaces for PP/jute (GVL (95/5) and PP/jute (GVL)/ESO (90/5/5).
doi_str_mv	10.1002/pc.25614
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The jute fibers are pre‐treated by r‐valerolactone (GVL), and the ESO/jute fiber/PP composites are fabricated by melt blending. The microstructure of the treated fiber, the mechanical properties, thermal stability, and crystallization behaviors of the composites are investigated and discussed in detail. The results show that the surface of GVL treated fiber becomes rough and the aspect ratio increases. It is found by scanning electron microscopy (SEM) that the interface between the fiber and matrix debones seriously without the addition of ESO. With increasing the content of ESO, the toughness and thermal stability of the composites are gradually improved. The tensile strength of the composites containing 5% ESO reaches 42.2 MPa. In addition, the impact strength and elongation at break are higher than pure PP and PP/jute composites. Moreover, GVL treated fibers can improve the thermal stability of PP/jute fiber composites. In addition, the crystallinity of PP in the PP composites increases first and then decreases, while the crystallization temperature of the composites decreases. At the same time, the complex viscosity of the composites also increases. Storage modulus and the transition temperature (tanδ) of PP and its composites with various content of ESO. 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The jute fibers are pre‐treated by r‐valerolactone (GVL), and the ESO/jute fiber/PP composites are fabricated by melt blending. The microstructure of the treated fiber, the mechanical properties, thermal stability, and crystallization behaviors of the composites are investigated and discussed in detail. The results show that the surface of GVL treated fiber becomes rough and the aspect ratio increases. It is found by scanning electron microscopy (SEM) that the interface between the fiber and matrix debones seriously without the addition of ESO. With increasing the content of ESO, the toughness and thermal stability of the composites are gradually improved. The tensile strength of the composites containing 5% ESO reaches 42.2 MPa. In addition, the impact strength and elongation at break are higher than pure PP and PP/jute composites. Moreover, GVL treated fibers can improve the thermal stability of PP/jute fiber composites. 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The jute fibers are pre‐treated by r‐valerolactone (GVL), and the ESO/jute fiber/PP composites are fabricated by melt blending. The microstructure of the treated fiber, the mechanical properties, thermal stability, and crystallization behaviors of the composites are investigated and discussed in detail. The results show that the surface of GVL treated fiber becomes rough and the aspect ratio increases. It is found by scanning electron microscopy (SEM) that the interface between the fiber and matrix debones seriously without the addition of ESO. With increasing the content of ESO, the toughness and thermal stability of the composites are gradually improved. The tensile strength of the composites containing 5% ESO reaches 42.2 MPa. In addition, the impact strength and elongation at break are higher than pure PP and PP/jute composites. Moreover, GVL treated fibers can improve the thermal stability of PP/jute fiber composites. In addition, the crystallinity of PP in the PP composites increases first and then decreases, while the crystallization temperature of the composites decreases. At the same time, the complex viscosity of the composites also increases. Storage modulus and the transition temperature (tanδ) of PP and its composites with various content of ESO. SEM images of the fractured surfaces for PP/jute (GVL (95/5) and PP/jute (GVL)/ESO (90/5/5).</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/pc.25614</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-7861-7321</orcidid><orcidid>https://orcid.org/0000-0002-1231-2621</orcidid><orcidid>https://orcid.org/0000-0002-1649-3423</orcidid><orcidid>https://orcid.org/0000-0001-5217-8212</orcidid></addata></record>
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subjects	Aspect ratio composites Crystallization Elongation epoxy soybean oil Fiber composites Impact strength Jute jute fiber Mechanical properties Melt blending Polymer matrix composites Polypropylene Soybean oil Soybeans Tensile strength Thermal stability toughness
title	Effect of a novel treatment fiber on mechanical properties, thermal stability and crystallization behaviors of epoxy soybean oil toughened jute fiber/polypropylene composites
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