Thermal properties of oil palm lignocellulosic fibre reinforced polymer composites: A comprehensive review on thermogravimetry analysis

Thermal properties of oil palm lignocellulosic fibre reinforced polymer composites: A comprehensive review on thermogravimetry analysis

Oil palm fibre (OPF) is abundant in resources since it is easily obtained in many parts of an oil palm crop. The application of OPF in polymer composite could provide good mechanical stiffness and strength, and the material is considered environmentally friendly. Research has been carried out on oil...

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Main Authors: M. R. M. Asyraf, N. M. Nurazzi, M. N. F. Norrrahim, K. Z. Hazrati, Muhammad Aizat Abd Ghani, F. A. Sabaruddin, S. H. Lee, S. S. Shazleen, M. R. Razman
Format: Article
Language:en
Published: Springer Nature 2023
Subjects:
SB183-317 Field crops Including cereals, forage crops, grasses, legumes, root crops, sugar plants, textile plants, alkaloidal plants, medicinal plants
TP1080-1185 Polymers and polymer manufacture
Online Access:https://eprints.ums.edu.my/id/eprint/44415/1/FULL%20TEXT.pdf
https://eprints.ums.edu.my/id/eprint/44415/
https://doi.org/10.1007/s10570-023-05080-4
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Summary:Oil palm fibre (OPF) is abundant in resources since it is easily obtained in many parts of an oil palm crop. The application of OPF in polymer composite could provide good mechanical stiffness and strength, and the material is considered environmentally friendly. Research has been carried out on oil palm biocomposites to characterise the thermal, mechanical, and physical behaviours in many conditions. Today, oil palm biocomposites are very limited to producing conventional products, such as brooms and furniture, despite their excellent thermal stability in replacing synthetic fibres. Hence, the TGA and DTG analyses are vital to evaluate the thermal stability of single fibre oil palm fibre reinforced polymer composites in thermoplastic and thermoset matrices. Previous literature established that most biocomposites improved thermal stability depending on specific fibre compositions, surface treatments, fillers, and coupling agents. Nevertheless, a few studies have reviewed the thermal properties of oil palm biocomposites. Thus, this state-of-the-art review article targets to provide baseline knowledge for all material designers, engineers, and manufacturers in choosing suitable matrices for oil palm biocomposites for thermal applications in the automotive, naval, aerospace, and locomotive sectors.

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