4.7 Article

Physical-Mechanical Properties of Bamboo Fiber Composites Using Filament Winding

期刊

POLYMERS
卷 13, 期 17, 页码 -

出版社

MDPI
DOI: 10.3390/polym13172913

关键词

twisting bamboo fiber (TBF); filament winding; NOL ring; epoxy composite

资金

  1. Zhejiang Provincial Cooperative Forestry Science and Technology Project [2020SY09]

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The study focused on the performance of bamboo fiber composites compared to jute fiber and glass fiber composites. The bamboo fiber composites exhibited lower density and mechanical properties due to the preservation of the inner tissue structure. The findings suggest that improving the surface and internal structures of bamboo fiber can enhance the comprehensive properties of the composites.
In order to study the performance of the bamboo fiber composites prepared by filament winding, composites reinforced with jute fiber and glass fiber were used as control samples. The structure and mechanical properties of the composites were investigated by scanning electric microscope (SEM), tensile testing, bending testing, and dynamic mechanical analysis. The results demonstrated that the bamboo fiber composites exhibited lower density (0.974 g/cm(3)) and mechanical properties in comparison of to fiber composite and glass fiber composite, because the inner tissue structure of bamboo fiber was preserved without resin adsorbed into the cell cavity of fibrous parenchyma. The bamboo fibers in composites were pulled out, while the fibers in the surface of composites were torn, resulting in the lowest mechanical performance of bamboo fiber composites. The glass transition temperature of twisting bamboo fiber Naval Ordnance Laboratory (TBF-NOL) composite (165.89 degrees C) was the highest in general, which indicated that the TBF circumferential composite had the best plasticizing properties and better elasticity, the reason being that the fiber-reinforced epoxy circumferential composite interface joint is a physical connection, which restricts the movement of the molecular chain of the epoxy matrix, making the composite have a higher storage modulus (6000 MPa). In addition, The TBF-NOL had the least frequency dependence, and the circumferential composite prepared by TBF had the least performance variability. Therefore, the surface and internal structures of the bamboo fiber should be further processed and improved by decreasing the twisting bamboo fiber (TBF) diameter and increasing the specific surface area of the TBF and joint surface between fibers and resin, to improve the comprehensive properties of bamboo fiber composites.

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