1. Polylactide-Based Polymer Composites with Rice Husk Filler.
- Author
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Lyubushkin, Roman Aleksandrovich, Cherkashina, Natalia Igorevna, Pushkarskaya, Daria Vasilievna, Forova, Elena Vitalievna, Ruchiy, Artem Yuryevich, and Domarev, Semyon Nikolaevich
- Subjects
RICE hulls ,FLEXURAL modulus ,CRYSTAL lattices ,PEAK load ,X-ray spectra ,CELLULOSE fibers - Abstract
In this work, composites made of polylactide (PLA) and filled with alkali-pretreated rice husk (RH) were investigated. Composites containing 20, 30, and 40 wt.% of RH were synthesized. It was shown that alkaline treatment, along with the change in crystal lattice, led to an increase in the content of non-crystalline parts and the volume of intercrystalline spaces, and the internal surface of the cellulose fiber increased, which resulted in improved adhesion of the fiber with the matrix. The addition of rice husk to the PLA matrix led to an increase in the flexural modulus, which increased to 2881 MPa for the PLA/RH (80/20 wt.%) and 3034 MPa for the PLA/RH (70/30 wt.%) composites and lowered the peak load stress by approximately 43% for the composite with 20 wt.% RH and 56% for the composite with 30 wt.% RH. The reduction in the degree of PLA crystallinity allows macromolecules to move more freely in amorphous regions, which has a positive effect on increasing the flexibility of materials in general. The optimal formulation is a composite consisting of 30% RH and 70% PLA matrix. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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