Effect of alkaline treatment time of fibers and microcrystalline cellulose addition on mechanical properties of unsaturated polyester composites reinforced by cantala fibers

Effect of alkaline treatment time of fibers and microcrystalline cellulose addition on mechanical properties of unsaturated polyester composites reinforced by cantala fibers

The aim of this study is to investigate the effect of alkaline treatment and addition of microcrystalline cellulose (MCC) on the density, tensile strength, elastic modulus, impact strength, and Poisson’s ratio of unsaturated polyester resin composites reinforced by cantala fibers (UPR-CFs). The fibe...

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Bibliographic Details
Published in:Reviews on advanced materials science Vol. 62; no. 1; pp. pp. 6354 - 6374
Main Authors: Raharjo, Wahyu Purwo, Ariawan, Dody, Diharjo, Kuncoro, Raharjo, Wijang Wisnu, Kusharjanta, Bambang
Format: Journal Article
Language:English
Published: De Gruyter 21-08-2023
Subjects:
alkaline treatment
cantala fibers
microcrystalline cellulose
Poisson’s ratio
unsaturated polyester
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Summary:The aim of this study is to investigate the effect of alkaline treatment and addition of microcrystalline cellulose (MCC) on the density, tensile strength, elastic modulus, impact strength, and Poisson’s ratio of unsaturated polyester resin composites reinforced by cantala fibers (UPR-CFs). The fibers were immersed in alkaline solution of 6% NaOH for 0, 3, 6, 9, and 12 h. The composite had cantala fibers (CFs) and MCC volume fraction ( ) of 30 and 5%, respectively. The results showed that the alkaline treatment for 6 h resulted in the highest density, tensile strength, and elastic modulus of the composites, while the highest Poisson’s ratio was achieved in UPR-untreated CF composites. The addition of MCC filler also increased the density, tensile strength, and elastic modulus of the composite significantly. Both alkaline treatment and MCC addition did not significantly affect the impact strength. With the increase in the strength and modulus of elasticity, composites can be applied more widely to structures that bear higher loads.
ISSN:1605-8127
1605-8127
DOI:10.1515/rams-2023-0103