Yang Hongbin, Bu Hengyong, Li Mengnie, Lu Xin
Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, China.
Materials (Basel). 2021 Oct 12;14(20):5986. doi: 10.3390/ma14205986.
Hot compression experiments of annealed 7075 Al alloy were performed on TA DIL805D at different temperatures (733, 693, 653, 613 and 573 K) with different strain rates (1.0, 0.1, 0.01 and 0.001 s.) Based on experimental data, the strain-compensated Arrhenius model (SCAM) and the back-propagation artificial neural network model (BP-ANN) were constructed for the prediction of the flow stress. The predictive power of the two models was estimated by residual analysis, correlation coefficient (R) and average absolute relative error (AARE). The results reveal that the deformation parameters including strain, strain rate, and temperature have a significant effect on the flow stress of the alloy. Compared with the SCAM model, the flow stress predicted by the BP-ANN model is in better agreement with experimental values. For the BP-ANN model, the maximum residual is only 1 MPa, while it is as high as 8 MPa for the SCAM model. The R and AARE for the SCAM model are 0.9967 and 3.26%, while their values for the BP-ANN model are 0.99998 and 0.18%, respectively. All these reflect that the BP-ANN model has more accurate prediction ability than the SCAM model, which can be applied to predict the flow stress of the alloy under high temperature deformation.
在TA DIL805D上对退火态7075铝合金进行了热压缩实验,实验在不同温度(733、693、653、613和573K)和不同应变速率(1.0、0.1、0.01和0.001s⁻¹)下进行。基于实验数据,构建了应变补偿阿伦尼乌斯模型(SCAM)和反向传播人工神经网络模型(BP-ANN)来预测流变应力。通过残差分析、相关系数(R)和平均绝对相对误差(AARE)评估了这两个模型的预测能力。结果表明,包括应变、应变速率和温度在内的变形参数对合金的流变应力有显著影响。与SCAM模型相比,BP-ANN模型预测的流变应力与实验值更吻合。对于BP-ANN模型,最大残差仅为1MPa,而SCAM模型高达8MPa。SCAM模型的R和AARE分别为0.9967和3.26%,而BP-ANN模型的相应值分别为0.99998和0.18%。所有这些都表明,BP-ANN模型比SCAM模型具有更准确的预测能力,可用于预测合金在高温变形下的流变应力。