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Characterization of plant nanofiber-reinforced epoxy composites

In the present study, oil palm empty fruit bunch (OPEFB) fibers were taken from a 25-year-old oil palm tree. The cellulosic nanofiber (CNF) was isolated from the OPEFB using a chemo-mechanical process and utilized as reinforcement in an epoxy matrix. Various CNF loading percentages (0 to 0.75%) were...

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Main Authors: Ireana Yusra, A. F., Abdul Khalil, H. P. S., Hossain, Md. Sohrab, Davoudpour, Yalda, Astimar, A. A., Zaidon, A., Ashaari, Zaidon, Dungani, Rudi, Mohd Omar, A. K.
Format: Article
Language:English
Published: North Carolina State University, College of Natural Resources 2015
Online Access:http://psasir.upm.edu.my/id/eprint/44042/1/Characterization%20of%20plant%20nanofiber-reinforced%20epoxy%20composites.pdf
http://psasir.upm.edu.my/id/eprint/44042/
https://ojs.cnr.ncsu.edu/index.php/BioRes/article/view/BioRes_10_4_8268_Yusra_Plant_Nanofiber_Reinforced_Epoxy
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Summary:In the present study, oil palm empty fruit bunch (OPEFB) fibers were taken from a 25-year-old oil palm tree. The cellulosic nanofiber (CNF) was isolated from the OPEFB using a chemo-mechanical process and utilized as reinforcement in an epoxy matrix. Various CNF loading percentages (0 to 0.75%) were applied in the epoxy matrix to explore the potential of using OPEFB-CNF as reinforcement. The morphological, mechanical, physical, and thermal characteristics of the OPEFB nanofiber-reinforced epoxy composites were evaluated. Results showed that the 0.25% and 0.5% CNF loadings were homogenously distributed and well-dispersed in the composite matrix. Conversely, agglomeration was detected in the matrix with 0.75% CNF loading. Determination of the water absorption behavior of CNF-reinforced epoxy composites at various loadings revealed that the physical properties of the composites increased with reinforcement loading. Furthermore, the analyses of the mechanical and thermal properties of the CNF-reinforced composites revealed that the incorporation of OPEFB-CNF enhanced the mechanical performance and thermal stability up to 0.5% loading.

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