Raimundo Valdan Pereira Lopes, Jandecy Cabral Leite, R. Fujiyama, Marcus Roberto Binda Afonso, Eleodoro Rodriguez Hermenegildo
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Abstract
The diversity of the species of the Amazon flora makes this region a large barn of plants suitable for the development of new polymeric composites. The article in question aimed to evaluate the mechanical properties of polyester composites reinforced by short fibers of Munguba from Amazon not only randomly arranged but also continuous and aligned fibers. For the evaluation of mechanical properties tensile test were used. The used method was qualitative and quantitative, comparing parameters obtained in composites developed by other literature. The results showed that for the investigated materials, the tensile strength increased with fiber length (5 mm 9.61 (MPa) 10 mm 12.16 (MPa) and 15mm 19.91 (MPa)) and when they remained better aligned, uniform and occupying a larger contact area in the matrix, the comportment was better; and composites with continuous and aligned fibers revealed the most satisfactory mechanical performance (54,66MPa).
亚马逊地区植物种类的多样性使该地区成为适合开发新型聚合物复合材料的大型植物仓库。本文旨在评价亚马逊蒙古巴短纤维增强聚酯复合材料的力学性能,包括随机排列纤维和连续排列纤维。力学性能的评价采用拉伸试验。采用了定性和定量相结合的方法,并与其他文献开发的复合材料中得到的参数进行了比较。结果表明:随着纤维长度的增加,材料的抗拉强度增大(5 mm 9.61 (MPa)、10 mm 12.16 (MPa)和15mm 19.91 (MPa)),当纤维在基体中保持较好的排列、均匀和较大的接触面积时,材料的性能较好;连续纤维和排列纤维复合材料的力学性能最理想(54,66 mpa)。
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