极限抗拉强度
材料科学
合金
回归分析
多项式回归
粒度
相互依存
铝
线性回归
预测建模
计算机科学
机器学习
复合材料
政治学
法学
作者
Keya Fu,Dexin Zhu,Yuqi Zhang,Cheng Zhang,Xiaodong Wang,Changji Wang,Tao Jiang,Feng Mao,Cheng Zhang,Xiaobo Meng,Hua Yu
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2023-11-20
卷期号:16 (22): 7236-7236
被引量:14
摘要
Aluminum alloys are widely used due to their exceptional properties, but the systematic relationship between their grain size and their tensile strength has not been thoroughly explored in the literature. This study aims to fill this gap by compiling a comprehensive dataset and utilizing machine learning models that consider both the alloy composition and the grain size. A pivotal enhancement to this study was the integration of hardness as a feature variable, providing a more robust predictor of the tensile strength. The refined models demonstrated a marked improvement in predictive performance, with XGBoost exhibiting an R2 value of 0.914. Polynomial regression was also applied to derive a mathematical relationship between the tensile strength, alloy composition, and grain size, contributing to a more profound comprehension of these interdependencies. The improved methodology and analytical techniques, validated by the models’ enhanced accuracy, are not only relevant to aluminum alloys, but also hold promise for application to other material systems, potentially revolutionizing the prediction of material properties.
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