Predicting Twin Nucleation in a Polycrystalline Mg Alloy Using Machine Learning Methods

PDF / 4,883,060 Bytes
18 Pages / 593.972 x 792 pts Page_size
2 Downloads / 152 Views

Predicting Twin Nucleation in a Polycrystalline Mg Alloy Using Machine Learning Methods ZHOUNUO TONG, LEYUN WANG, GAOMING ZHU, and XIAOQIN ZENG Twinning is an important deformation mechanism for Mg and other hexagonal metals. While twin nucleation is known to depend on the size and crystal orientation of the parent grain, so far there is no satisfactory criterion to predict twin nucleation in a polycrystalline Mg alloy prior to its deformation. In this work, machine learning is employed to tackle this problem. From a single-phase, polycrystalline Mg-0.47 wt pct Ca extruded alloy, three micro-tensile specimens, E-0, E-45, and E-90, were fabricated with their tensile axis being 0, 45, and 90 deg from the extrusion direction. Each specimen was deformed by 4 pct tensile strain in a scanning electron microscope. Six hundred thirty-six grains from E-0, 572 grains from E-45, and 840 grains from E-90 were characterized by electron backscattered diﬀraction (EBSD) before and after deformation. Twin nucleation was identiﬁed in 27, 150, and 220 grains in E-0, E-45, and E-90, respectively. Eighteen attributes that can inﬂuence twin nucleation, such as grain diameter, c-axis direction, and Schmid factors, were computed for each grain. Five machine learning algorithms, including decision tree, tree ensemble (XGBoost), artiﬁcial neural network (ANN), support vector machine (SVM), and naı¨ ve Bayes, were used to build models to predict twin nucleation according to a grain’s 18 attribute values, with E-45 as the training set and the other two specimens as the test sets. The ANN and SVM models show the best performance, both achieving ~ 87 pct prediction accuracy for specimens E-45 and E-90. None of the models perform well for E-0 because of the imbalanced class distribution in this specimen. The unpredicted twin nucleation events in E-90 mostly originate from triple junctions or twin–twin transmission at grain boundaries. https://doi.org/10.1007/s11661-019-05468-7 The Minerals, Metals & Materials Society and ASM International 2019

I.

INTRODUCTION

TWINNING is an important deformation mechanism for Mg and other hexagonal metals because of the lack of adequate slip systems in this family of materials. For Mg, the most common twinning mode is 1012 1011 extension twinning, which leads to a near

ZHOUNUO TONG and GAOMING ZHU are with the National Engineering Research Center of Light Alloy Net Forming, School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, P.R. China. LEYUN WANG is with the National Engineering Research Center of Light Alloy Net Forming, School of Materials Science and Engineering, Shanghai Jiao Tong University and also with the Materials Genome Initiative Center, Shanghai Jiao Tong University, Shanghai 200240, P.R. China. Contact e-mail: [email protected] XIAOQIN ZENG is with the National Engineering Research Center of Light Alloy Net Forming, School of Materials Science and Engineering, Shanghai Jiao Tong University and also with Shanghai Institute of Materials Geno

Data Loading...

Predicting Twin Nucleation in a Polycrystalline Mg Alloy Using Machine Learning Methods

Recommend Documents

Concept for Predicting Vibrations in Machine Tools Using Machine Learning

Predicting hospitalization following psychiatric crisis care using machine learning

Predicting groundwater depth fluctuations using deep learning, extreme learning machine and Gaussian process: a comparat

Machine learning methods are comparable to logistic regression techniques in predicting severe walking limitation follow

Kernel methods in Quantum Machine Learning

Machine learning a molecular Hamiltonian for predicting electron dynamics

Hourly Air Quality Index (AQI) Forecasting Using Machine Learning Methods

Safety Supervision for Coal Mines Using Machine Learning Methods

A machine learning-based framework for predicting game server load

Recent advances on the machine learning methods in predicting ncRNA-protein interactions

Machine Learning Techniques for Predicting Crop Production in India

Global and Individual Treatment Effects Using Machine Learning Methods