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Support vector machines for predicting the compressive response of defected 3D printed polymeric sandwich structures

Khameel Mustapha (Department of Mechanical, Faculty of Engineering, University of Nottingham Malaysia, Semenyih, Malaysia)
Jamal Alhiyafi (College of Computer Science and Information Technology, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia)
Aamir Shafi (National University of Computer and Emerging Sciences, Lahore, Pakistan)
Sunday Olusanya Olatunji (Department of Computer Science, College of Computer Science and Information Technology, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia)

Journal of Engineering, Design and Technology

ISSN: 1726-0531

Article publication date: 11 October 2021

Issue publication date: 2 May 2023

93

Abstract

Purpose

This study aims to investigate the prediction of the nonlinear response of three-dimensional-printed polymeric lattice structures with and without structural defects. Unlike metallic structures, the deformation behavior of polymeric components is difficult to quantify through the classical numerical analysis approach as a result of their nonlinear behavior under mechanical loads.

Design/methodology/approach

Geometric models of periodic lattice structures were designed via PTC Creo. Imperfections in the form of missing unit cells are introduced in the replica of the lattice structure. The perfect and imperfect lattice structures have the same dimensions – 10 mm × 14 mm × 30 mm (w × h × L). The fused deposition modelling technique is used to fabricate the parts. The fabricated parts were subjected to physical compression tests to provide a measure of their transverse compressibility resistance. The ensuing nonlinear response from the experimental tests is deployed to develop a support vector machine surrogate model.

Findings

Results from the surrogate model’s performance, in terms of correlation coefficient, rose to as high as 99.91% for the nonlinear compressive stress with a minimum achieved being 98.51% across the four datasets used. In the case of deflection response, the model accuracy rose to as high as 99.74% while the minimum achieved is 98.56% across the four datasets used.

Originality/value

The developed model facilitates the prediction of the quasi-static response of the structures in the absence and presence of defects without the need for repeated physical experiments. The structure investigated is designed for target applications in hierarchical polymer packaging, and the methodology presents a cost-saving method for data-driven constitutive modelling of polymeric parts.

Keywords

Acknowledgements

The first author acknowledge the support of the technical staff of the M3 workshop and the FOSE 3D Printing Hub team – Mr Noor Hashimi Mohamad Nor and Mr Mohd Saiful Bahrin.

Funding: This work is supported in part by Malaysia’s Ministry of Education (MOE) under the Fundamental Research Grant Scheme (FRGS/1/2018/TK03/UNIM/02/1).

Citation

Mustapha, K., Alhiyafi, J., Shafi, A. and Olatunji, S.O. (2023), "Support vector machines for predicting the compressive response of defected 3D printed polymeric sandwich structures", Journal of Engineering, Design and Technology, Vol. 21 No. 3, pp. 819-839. https://doi.org/10.1108/JEDT-05-2021-0268

Publisher

:

Emerald Publishing Limited

Copyright © 2021, Emerald Publishing Limited

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