Tannins as Biobased Molecules for Surface Treatments of Flax Wrapped Rovings for Epoxy/Flax Fabrics Biocomposites: Influence on Mechanical Properties through a Multi-Scale Approach

Khouloud Tilouche-Guerdelli, Clément Lacoste, Didier Perrin, P. Liotier, P. Ouagne, J. Tirillò, F. Sarasini, Anne Bergeret
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Abstract

The present study examined the effect of biobased molecules grafted onto wrapped flax rovings on the mechanical properties of fabrics designed for epoxy-based biocomposites, aiming to optimize fiber/matrix adhesion. Biobased solutions, such as tannins from quebracho, were used to treat wrapped flax rovings in comparison to a non-biobased aminosilane solution used as a reference. The chemical treatment is performed using an innovative lab-scale impregnation line. The influence of the solution concentration has been investigated. SEM-EDX and FT-IR confirmed the grafting efficiency of molecules on wrapped rovings. Plain and 5-harness satin fabrics were then manufactured at lab scale with the resulting functionalized rovings. Tensile tests were carried out on rovings and on fabrics. A concentration of 1% silane is sufficient to improve the mechanical properties of rovings and fabrics. The addition of NaOH to tannins strengthens flax fiber rovings more than tannins alone, and the weave pattern influences mechanical performance.
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单宁酸作为生物基分子用于环氧树脂/亚麻织物生物复合材料亚麻包覆罗文的表面处理:通过多尺度方法影响力学性能
本研究考察了接枝到包覆亚麻粗纱上的生物基分子对环氧基生物复合材料织物机械性能的影响,旨在优化纤维/基质的粘附性。生物基溶液(如坚木中的单宁酸)被用来处理包覆的亚麻粗纱,而非生物基氨基硅烷溶液则被用作参照物。化学处理是通过实验室规模的创新型浸渍生产线进行的。研究了溶液浓度的影响。SEM-EDX 和傅立叶变换红外光谱证实了分子在包裹粗纱上的接枝效率。然后,在实验室规模上用得到的功能化粗纱制造了平纹和 5 匹缎纹织物。对粗纱和织物进行了拉伸测试。浓度为 1%的硅烷足以改善粗纱和织物的机械性能。在单宁酸中添加 NaOH 比单独使用单宁酸更能增强亚麻纤维粗纱的强度,而编织图案也会影响机械性能。
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