Influence of Drilling Parameters on the Delamination and Surface Roughness of Insulative-Coated Glass/Carbon-Hybrid Composite

IF 2 4区 工程技术 Q3 ENGINEERING, CHEMICAL Advances in Polymer Technology Pub Date : 2023-06-02 DOI:10.1155/2023/6271115
Sarower Kabir, F. Ahmad, Chowdhury Ahmed Shahed, Ebru Gunister
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Abstract

Drilling in synthetic fiber-reinforced polymer composites is facing challenges due to their anisotropic, inhomogeneity, and abrasive machining behavior. The joining of composite parts using fasteners is commonly done by the drilling, and the generated heat is one of the main causes to damage the drilled hole in the composite. Moreover, the quality of drilled hole is crucial for joining parts effectively. The paper presents the design, fabrication, and drilling of a hybrid fiber-reinforced polymer (HFRP) based on insulative coating. These composites were fabricated using vacuum infusion molding (VIM) and coated with different thicknesses to investigate the influence of drilling parameters and associated damages. Cutting speed, feed rate, and coating thicknesses were varied, and a full factorial design of the experiment was formulated. High-speed steel (HSS) twist drill bit was used to drill the coated composite and test samples, and delamination factor and surface roughness were measured. ANOVA and full factorial response optimizer were used to evaluate the influence and optimum drilling parameters. The delamination factor (DF) at the entry and surface roughness were found to decrease with the increasing cutting speed. However, the DF at the exit showed the opposite. Coating thickness influenced the delamination at the entry whereas delamination at the exit has been found insignificant. For drilling HFRP composite with 1 mm coating thickness, 3000 RPM spindle speed and 0.08 mm/rev feed rate were found optimum parameters in minimizing surface roughness and delamination damage. However, 6000 RPM and 0.02 mm/rev were found optimum parameters for drilling HFRP composite with 1.5 mm coating thickness.
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钻孔参数对绝缘涂层玻璃/碳杂化复合材料分层和表面粗糙度的影响
合成纤维增强聚合物复合材料由于其各向异性、不均匀性和研磨加工行为而面临挑战。使用紧固件连接复合材料零件通常是通过钻孔完成的,产生的热量是损坏复合材料钻孔的主要原因之一。此外,钻孔质量对零件的有效连接至关重要。本文介绍了一种基于绝缘涂层的混合纤维增强聚合物(HFRP)的设计、制造和钻孔。使用真空注模(VIM)制备了这些复合材料,并涂覆了不同厚度的涂层,以研究钻孔参数和相关损伤的影响。切割速度、进料速率和涂层厚度各不相同,并制定了实验的全因子设计。采用高速钢(HSS)麻花钻头对涂层复合材料和试样进行了钻孔,测量了分层因子和表面粗糙度。ANOVA和全因子响应优化器用于评估影响和最佳钻井参数。随着切削速度的增加,入口处的分层因子(DF)和表面粗糙度减小。然而,出口处的DF却显示出相反的情况。涂层厚度影响了入口处的分层,而发现出口处的分层不显著。用于钻探HFRP复合材料 mm涂层厚度,3000 RPM主轴转速和0.08 mm/rev进料速率是最小化表面粗糙度和分层损伤的最佳参数。然而,6000 RPM和0.02 mm/rev获得了钻取HFRP复合材料的最佳参数 mm涂层厚度。
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来源期刊
Advances in Polymer Technology
Advances in Polymer Technology 工程技术-高分子科学
CiteScore
5.50
自引率
0.00%
发文量
70
审稿时长
9 months
期刊介绍: Advances in Polymer Technology publishes articles reporting important developments in polymeric materials, their manufacture and processing, and polymer product design, as well as those considering the economic and environmental impacts of polymer technology. The journal primarily caters to researchers, technologists, engineers, consultants, and production personnel.
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