Multifidelity co-kriging metamodeling based on multivariate data fusion for dynamic fit improvement of injection mechanism in squeeze casting

IF 6.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

alexandria engineering journal Pub Date : 2024-10-19 DOI:10.1016/j.aej.2024.10.058

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引用次数: 0

Abstract

To improve the dynamic fit the injection mechanism in a squeeze casting machine, this paper proposes a novel multifidelity co-kriging (MFCK) metamodeling method, which fuses high-fidelity measured data with low-fidelity simulated data and considers data uncertainty and multivariate correlation influence to accurately predict response values when experimental sample data are insufficient. An MFCK model was established to predict the deformation and dynamic fit clearance, by selecting experimental and simulated values of deformation and temperature as the principal and covariates for correlation testing. The results indicate that the proposed MFCK model significantly improved the prediction accuracy by 34.18 %, 73.53 %, 41.57 % and 37.93 %, respectively, compared with the ordinary kriging model and finite element method. This method was applied to the multicycle injection process of a 2,500-kN squeeze casting machine, revealing the variation law of the fit clearance. The MFCK model improved the prediction accuracy of the fit clearance by 72.7 %, which is beneficial for process control. The accuracy and industrial applicability of the proposed MFCK method was thus verified.

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基于多变量数据融合的多保真共混元建模，用于改善挤压铸造中喷射机制的动态拟合效果

为了改善挤压铸造机中注射机构的动态配合，本文提出了一种新颖的多保真度协同模拟（MFCK）元建模方法，该方法融合了高保真测量数据和低保真模拟数据，并考虑了数据的不确定性和多变量相关影响，从而在实验样本数据不足时准确预测响应值。通过选择变形和温度的实验值和模拟值作为相关测试的主变量和协变量，建立了一个 MFCK 模型来预测变形和动态配合间隙。结果表明，与普通克里金模型和有限元法相比，所提出的 MFCK 模型大大提高了预测精度，分别提高了 34.18 %、73.53 %、41.57 % 和 37.93 %。该方法应用于一台 2,500 千牛挤压铸造机的多循环注射过程，揭示了配合间隙的变化规律。MFCK 模型将配合间隙的预测精度提高了 72.7%，有利于过程控制。由此验证了所提出的 MFCK 方法的准确性和工业适用性。

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来源期刊

alexandria engineering journal Engineering-General Engineering

CiteScore

11.20

自引率

4.40%

发文量

1015

审稿时长

43 days

期刊介绍： Alexandria Engineering Journal is an international journal devoted to publishing high quality papers in the field of engineering and applied science. Alexandria Engineering Journal is cited in the Engineering Information Services (EIS) and the Chemical Abstracts (CA). The papers published in Alexandria Engineering Journal are grouped into five sections, according to the following classification: • Mechanical, Production, Marine and Textile Engineering • Electrical Engineering, Computer Science and Nuclear Engineering • Civil and Architecture Engineering • Chemical Engineering and Applied Sciences • Environmental Engineering