Application of AI techniques for modeling the performance measures in milling of 7075-T6 hybrid aluminum metal matrix composites

T. Mohanraj
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引用次数: 1

Abstract

The prediction of performance measures is an essential one for manufacturers to increase the service life. This paper deals with the application of Artificial Intelligence (AI) to predict the performance measures like surface roughness, material removal rate, and flank wear during the milling process from the experimental data. The milling experiments were conducted in wet conditions based on the Response Surface Methodology (RSM) design of experiments. The spindle speed, feed rate, and axial depth of cut were considered as process parameters. The experimental data were used to develop the regression model, Mamdani fuzzy inference system, Backpropagation Neural Network (BPNN), and Adaptive Neuro-Fuzzy Inference System (ANFIS) model. The output of regression, fuzzy, neural network, and ANFIS model was compared with the experimental data, and predicted results were found to be in good conformity with the measured data. The prediction capability of the quadratic and Artificial Neural Network (ANN) model was very close to experimentally measured values and the quadratic model had an accuracy of 97.89% for surface roughness, 98.38% for material removal rate (MRR), and 95.72% for flank wear.
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人工智能技术在7075-T6杂化铝基复合材料铣削性能指标建模中的应用
性能指标的预测是提高产品使用寿命的重要环节。本文研究了人工智能(AI)在铣削过程中对表面粗糙度、材料去除率、侧面磨损等性能指标的预测。基于响应面法(RSM)试验设计,在潮湿条件下进行铣削试验。以主轴转速、进给速度和轴向切削深度为工艺参数。利用实验数据建立了回归模型、Mamdani模糊推理系统、反向传播神经网络(BPNN)和自适应神经模糊推理系统(ANFIS)模型。将回归模型、模糊模型、神经网络模型和ANFIS模型的输出与实验数据进行比较,发现预测结果与实测数据吻合较好。二次模型和人工神经网络(ANN)模型的预测能力与实验实测值非常接近,二次模型对表面粗糙度的预测精度为97.89%,对材料去除率(MRR)的预测精度为98.38%,对翼面磨损的预测精度为95.72%。
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