THE EFFECT OF ATOMIZED SOYBEAN OIL EMULSIONS USED AS CUTTING FLUID ON THE CUTTING PERFORMANCE

International Journal of 3D Printing Technologies and Digital Industry Pub Date : 2023-12-14 DOI:10.46519/ij3dptdi.1375591

Selim Bacak, Ömer Karabiyik

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Abstract

Within the scope of sustainable production, a natural liquid mixture that will act as cutting fluid is sprayed with a different system. The liquid consisting of water and soybean oil was pulverized by ultrasonic atomization method and used by spraying with 4 bar compressed air. In this study, it was aimed to investigate the effects of AISI 4140 steel on machinability in CNC lathe by using uncoated carbide insert (SECO WNMG080404-M1). Three cutting speeds (150, 200, 250 m / min), three feed rates (0.1, 0.15, 0.2 mm / rev) with four cutting fluids (1%, 5%, 10% soy oil-water mixture and commercial cutting fluid) and the comparison was made by making experiments under dry cutting conditions. In all experiments, the cutting depth was 1 mm and the cutting length was 100 mm. As a result of the experiments, cutting force, surface roughness and tool wear values were examined and contact angle measurements of cutting fluids were made. The best results in all parameters were achieved by spraying a 10% soybean oil-water mixture using an ultrasonic atomizer. The best results in all parameters were achieved by spraying a 10% soybean oil-water mixture using an ultrasonic atomizer. The worst values occurred in experiments conducted under dry cutting condition. In addition, SEM photographs were taken to observe the type of tool wear. The obtained values were analyzed with the ANOVA method and the results were evaluated with 3D surface graphics. After evaluating the analysis results, percentage impact rates, regression analysis equations and optimization values are proposed.

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雾化大豆油乳液用作切削液对切削性能的影响

在可持续生产的范围内，使用不同的系统喷洒作为切削液的天然液体混合物。由水和大豆油组成的液体通过超声波雾化法进行粉碎，然后用 4 巴压缩空气喷洒。本研究旨在调查 AISI 4140 钢在数控车床中使用无涂层硬质合金刀片（SECO WNMG080404-M1）对加工性的影响。实验采用了三种切削速度（150、200、250 米/分钟）、三种进给速度（0.1、0.15、0.2 毫米/转）和四种切削液（1%、5%、10% 大豆油水混合物和商用切削液），并在干切削条件下进行了比较。在所有实验中，切削深度为 1 毫米，切削长度为 100 毫米。实验结果对切削力、表面粗糙度和刀具磨损值进行了检测，并对切削液的接触角进行了测量。使用超声波雾化器喷洒 10% 的大豆油水混合物，在所有参数方面都取得了最佳效果。使用超声波雾化器喷洒 10%的大豆油-水混合物在所有参数方面都取得了最佳结果。在干切削条件下进行的实验结果数值最差。此外，还拍摄了 SEM 照片，以观察刀具磨损的类型。用方差分析法分析所得数值，并用三维表面图形对结果进行评估。评估分析结果后，提出了百分比冲击率、回归分析方程和优化值。

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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International Journal of 3D Printing Technologies and Digital Industry

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