Study on a Process Parameter-Driven Deep Learning Prediction Model for Multi-Physical Fields in Flange Shaft Welding
Chaolong Yang, Zhiqiang Xu, Feiting Shi, Ketong Liu, Peng Cao

TL;DR
This study develops a deep learning model to predict welding temperature, deformation, and stress in large flange shafts, showing that MLP performs best with low prediction errors.
Contribution
The paper introduces a novel MLP-based model for multi-physical field prediction in welding, achieving high accuracy and practical applicability.
Findings
The MLP model achieved prediction errors below 5% for temperature and within 10% for deformation and residual stress.
RF showed good accuracy with an average peak residual stress error of about 6.5 MPa.
XGBoost and FT-Transformer had weak generalization and higher prediction errors under small-sample conditions.
Abstract
Large flange shafts are the core load-bearing and connecting components of high-end equipment, and their welding multi-physical fields directly affect the quality and service safety of the components. Traditional experiments and finite element methods suffer from long cycles and low efficiency, which can hardly meet the demand for rapid prediction. Aiming at the fast and accurate prediction of welding temperature, deformation and residual stress, this study combines thermal–mechanical coupled finite element simulation with machine learning to construct and compare a variety of prediction models. A dataset is built based on simulation data from 100 groups of process parameters. Overfitting is reduced through strategies including early stopping and dropout, and models such as MLP, RF, RBF-SVR, TabNet, XGBoost, and FT-Transformer are established and verified through 10-fold…
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Taxonomy
TopicsWelding Techniques and Residual Stresses · Advanced Welding Techniques Analysis · Microstructure and Mechanical Properties of Steels
