基于西北有色金属研究院实际生产中统计的321组钛合金铸锭化学成分与相变点数据,构建了预测钛合金(α+β)/β相变点的人工神经网络模型和多元线性回归模型,并对模型的准确性进行了评价分析。结果显示,多元线性回归模型的训练值及预测值与(α+β)/β相变点实际值的相关性系数分别为0.76105和0.80993,而人工神经网络模型的相关性系数分别为0.92721和0.81851,具有更好的相关性。人工神经网络模型的平均绝对误差为4.02℃,相比多元线性回归模型(平均绝对误差为5.11℃)具有更高的精度,可以更好地描述合金元素与钛合金(α+β)/β相变点之间的非线性关系。
In this paper, artificial neural network ( ANN ) and multiple linear regression ( MLR ) model were developed and analyzed based on 321 sets of data, incuding alloying elements and (α + β)/β transus data from Northwest Institute for Nonferrous Metal Research, and the accuracy of both models were evaluated. Results show that the correlation coefficients between the MLR model’ s training data and (α + β)/βtransus, the prediction data and (α +β)/βtransus were 0. 761 05 and 0. 809 93, respectively. The correlation coefficients between the ANN model’ s training data and (α + β)/β transus, the prediction data and (α + β)/β transus were 0. 927 21 and 0. 818 51, respectively. ANN predictions are in better agreement with the experimental data. The mean absolute error of the MLR model is 5. 11 ℃, and the mean absolute error of the ANN model is 4. 02 ℃. ANN model can more accurately describe the non-linear relationship between (α +β)/βtransus temperature and alloying elements.
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