Fuzzy Logic Approach to Predict Surface Roughness in Powder Mixed Electric Discharge Machining of Titanium Alloy

Strojniški vestnik Pub Date : 2023-09-14 DOI:10.5545/sv-jme.2023.561

Dragan Rodić, Marin Gostimirović, Milenko Sekulić, Borislav Savković, Andjelko Aleksić

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Abstract

This study deals with fuzzy logic based modeling and parametric analysis in powder mixed electrical discharge machining of titanium alloys. The central composition plan was used to design the experiments considering four parameters, namely discharge current, pulse duration, duty cycle as well as graphite powder concentration. All experiments were performed with different parameter combinations and the performance, i.e., surface roughness, was evaluated. The adaptive neuro-fuzzy inference system was used to understand and define the input-output relationship. The experimental results and the model results were compared and it was found that the results accurately predicted the reactions in the erosion of titanium alloys. In addition, the model was verified using data that had not participated in the training of the model, with an error of about 10%. In addition, a fuzzy plot was used to analyze the influence of input parameters on surface roughness. It was found that the discharge current was the most important influencing parameter. Additional experiments proved the positive effect of graphite powder, which reduced the surface roughness by 27 %.

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模糊逻辑法预测钛合金粉末混合电火花加工表面粗糙度

研究了钛合金粉末混合电火花加工中基于模糊逻辑的建模和参数分析方法。实验采用中心组成方案，考虑放电电流、脉冲持续时间、占空比和石墨粉浓度四个参数进行设计。所有实验均采用不同的参数组合进行，并对其性能(即表面粗糙度)进行了评估。采用自适应神经模糊推理系统来理解和定义输入输出关系。将实验结果与模型结果进行了比较，发现模型结果能较准确地预测钛合金的侵蚀反应。此外，使用未参与模型训练的数据对模型进行验证，误差在10%左右。此外，利用模糊图分析了输入参数对表面粗糙度的影响。结果表明，放电电流是最重要的影响参数。另外的实验证明了石墨粉的积极作用，使表面粗糙度降低了27%。

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