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Numerical Modeling Based on Finite Element Analysis of 3D-Printed Wood-Polylactic Acid Composites: A Comparison with Experimental Data

Ismail Ezzaraa, Nadir Ayrılmış, Mohamed Abouelmajd, Manja Kitek Kuzman, A. Bahlaoui, Ismail Arroub, Jamaa Bengourram, Manuel Lagache, Soufiane Belhouideg

2023Forests22 citationsDOIOpen Access PDF

Abstract

Wood-polymer composites are increasingly produced through fused deposition modeling (FDM)—an additive manufacturing technique. The versatility of this technology has attracted several industries to print complex shapes and structures. This underscores the importance of studying the mechanical properties of the FDM parts, specifically, their elastic properties. A numerical homogenization methodology is introduced in the present study, focusing on the fundamental aspect of the elastic properties. Investigations were carried out on the influence of various parameters like wood volume fraction, aspect ratio, and internal porosity. The numerical results were validated using analytical models and experimental data. The comparison showed a satisfactory agreement with experimental data, where the relative error did not exceed 10%, leading to a strong conclusion about the validity and effectiveness of the proposed approach.

Topics & Concepts

Polylactic acidHomogenization (climate)Materials scienceFused deposition modelingComposite materialFinite element methodPorosityExperimental dataVolume fractionMaterial properties3D printingPolymerStructural engineeringMathematicsEngineeringEcologyBiodiversityBiologyStatisticsAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsManufacturing Process and Optimization
Numerical Modeling Based on Finite Element Analysis of 3D-Printed Wood-Polylactic Acid Composites: A Comparison with Experimental Data | Litcius