EVALUATION OF THE CURING KINETICS OF A POLYMER MATRIX COMPOSITE USING A SENSOR CONTAINING AN ELECTRICALLY CONDUCTIVE FILLER

COMPOSITES and NANOSTRUCTURES Pub Date : 2023-09-20 DOI:10.36236/1999-7590-2023-15-3-151-161

S.B. Sapozhnikov, M. Semashko, A.Yu. Kletneva

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Abstract

In this work, the kinetics of the curing of fabric GFRP was carried out by measuring the parameters of its electrical conductivity. A compound of epoxy resin (ED-20), plasticizer (DBF) and hardener (PEPA) with the addition of finely milled graphite (FMG) was used as a matrix. To en-sure high-quality mixing of FMG in epoxy resin, a planetary mixer was used. Plain weave glass tape 0.2 mm thick with two woven wires was impregnated with a matrix compound. This tape was placed onto a beam 4 mm thick made of typical GFRP as an external electrically conductive functional sensor (FS). During curing at room temperature, periodic measurements of the electrical conductivity of the FS and the stiffness of the beam with FS in three-point bending were carried out. The amount of FMG into the matrix compound was below the percolation threshold; there-fore, electrical measurements of FS required alternating current. The dependence of the imped-ance on the current frequency (from 10 Hz to 1 MHz) was recorded. Comparison of the change in FS electrical impedance with the change in the beam stiffness during the curing showed their close correlation. The proposed method of measuring the FS impedance can be used to assess the degree of curing of the polymer matrix in critical large-sized composite products during the manufacturing process.

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使用含有导电填料的传感器评估聚合物基复合材料的固化动力学

在这项工作中，通过测量织物 GFRP 的导电参数，对其固化动力学进行了研究。基体采用环氧树脂 (ED-20)、增塑剂 (DBF) 和固化剂 (PEPA) 的复合物，并添加了细磨石墨 (FMG)。为确保环氧树脂中 FMG 的高质量混合，使用了行星搅拌器。带有两条编织线的 0.2 毫米厚平纹玻璃丝带被浸渍在基质化合物中。该玻璃丝带作为外部导电功能传感器（FS）被放置在由典型的玻璃纤维增强塑料制成的 4 毫米厚的横梁上。在室温固化过程中，定期测量 FS 的导电率和带有 FS 的梁在三点弯曲时的刚度。基质化合物中的 FMG 含量低于渗滤阈值；因此，FS 的电学测量需要交流电。记录了阻抗对电流频率（从 10 赫兹到 1 兆赫）的依赖性。在固化过程中，将 FS 电阻抗的变化与横梁刚度的变化进行比较，发现两者之间存在密切的相关性。所提出的 FS 阻抗测量方法可用于评估关键大型复合材料产品在制造过程中聚合物基体的固化程度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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COMPOSITES and NANOSTRUCTURES

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