Investigation on Material Removal Rate of Composites like Epoxy Reinforced with 5% Fiber and 5% Novel Nano Carbon Particles Made of Peanut Husk During Drilling Process

Q4 Materials Science

NanoWorld Journal Pub Date : 2023-10-04 DOI:10.17756/nwj.2023-s3-023

Pelluri Charan, Dharmalingam Satish Kumar

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Abstract

This study’s primary objective is to compare the material removal rate (MRR) of advanced hybrid epoxy composites reinforced with novel natural fiber (5%) and nano carbon (5%) to plain epoxy. The samples were created utilizing the layup method for both groups. The samples were made in accordance with the requirements, and drilling was done on a vertical CNC machine with an evaluated pretest G-power of 80%. The MRR of the work samples was investigated among the groups using a total of 20 tests (each with one repeat) per group. To assess the material clearance rate, t-independent tests were carried out using the statistical programs SPSS (Statistical Package for the Social Sciences). Sustainable ramie fiber (5 wt.%), nano carbon particles (5 wt.%), and group 1 (75 wt.%) had an average MRR of 0.38145 mm3/sec as opposed to 0.12490 mm3/sec for group 2. (plain epoxy). The mean variance of MRR between groups 1 and 2 is different, according to the results of the t-test statistical analysis (significant at p = 0.00, which is p < 0.05), it is inferred that there exists a significant statistical difference among the two groups under study. From the study, it is evident that using re-inforcements like sustainable ramie fiber and nano carbon particles considerably enhances MRR.

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钻孔过程中材料去除率的研究--环氧树脂增强 5%纤维和 5%花生壳制成的新型纳米碳颗粒等复合材料

本研究的主要目的是比较使用新型天然纤维（5%）和纳米碳（5%）增强的高级混合环氧树脂复合材料与普通环氧树脂的材料去除率（MRR）。两组样品均采用铺层法制作。样品按照要求制作，并在立式数控机床上进行钻孔，预试验 G 功率为 80%。每组共进行了 20 次测试（每次重复一次），对各组工件样品的 MRR 进行了调查。为评估材料清除率，使用 SPSS（社会科学统计软件包）统计程序进行了 t 检验。可持续苎麻纤维（5 wt.%）、纳米碳颗粒（5 wt.%）和第 1 组（75 wt.%）的平均 MRR 为 0.38145 立方毫米/秒，而第 2 组（普通环氧树脂）为 0.12490 立方毫米/秒。第 1 组和第 2 组的 MRR 平均方差不同，根据 t 检验统计分析结果（在 p = 0.00 时显著，即 p < 0.05），可以推断所研究的两组之间存在显著的统计差异。研究结果表明，使用可持续苎麻纤维和纳米碳颗粒等再增强材料可大大提高 MRR。

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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来源期刊

NanoWorld Journal Materials Science-Polymers and Plastics

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