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Accurate Estimation of Tensile Strength of 3D Printed Parts Using Machine Learning Algorithms

M. Jayasudha, Elangovan Muniyandy, Miroslav Mahdal, Jayaraju Priyadarshini

2022Processes68 citationsDOIOpen Access PDF

Abstract

Manufacturing processes need optimization. Three-dimensional (3D) printing is not an exception. Consequently, 3D printing process parameters must be accurately calibrated to fabricate objects with desired properties irrespective of their field of application. One of the desired properties of a 3D printed object is its tensile strength. Without predictive models, optimizing the 3D printing process for achieving the desired tensile strength can be a tedious and expensive exercise. This study compares the effectiveness of the following five predictive models (i.e., machine learning algorithms) used to estimate the tensile strength of 3D printed objects: (1) linear regression, (2) random forest regression, (3) AdaBoost regression, (4) gradient boosting regression, and (5) XGBoost regression. First, all the machine learning models are tuned for optimal hyperparameters, which control the learning process of the algorithms. Then, the results from each machine learning model are compared using several statistical metrics such as 𝑅2, mean squared error (MSE), mean absolute error (MAE), maximum error, and median error. The XGBoost regression model is the most effective among the tested algorithms. It is observed that the five tested algorithms can be ranked as XG boost > gradient boost > AdaBoost > random forest > linear regression.

Topics & Concepts

AdaBoostRandom forestMachine learningArtificial intelligenceGradient boostingLinear regressionAlgorithmHyperparameterRegressionMean absolute percentage errorRegression analysisComputer scienceMean squared errorBoosting (machine learning)Support vector machineUltimate tensile strengthMathematicsArtificial neural networkStatisticsMaterials scienceMetallurgyAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and ProcessesManufacturing Process and Optimization
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