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3D Printing Wood–PLA Composites: The Impact of Wood Particle Size

Wojciech Jasiński, Karol Szymanowski, Barbara Nasiłowska, Marek Barlak, Izabela Betlej, A. Prokopiuk, P. Borysiuk

2025Polymers15 citationsDOIOpen Access PDF

Abstract

Particle size of wood fillers used in FDM 3D printing filaments is a topic not commonly discussed in the literature. Research on traditional wood-polymer composites (WPCs) suggests that bigger particles improve the composite's tensile properties. Is that the case at the 3D printing scale? Five variants of composites were prepared using recycled PLA and sawdust, differentiated by filler particle size (<0.2 mm, 0.2 mm-0.4 mm, 0.4 mm-0.6 mm, 0.6 mm-0.8 mm, 0.8 mm-1 mm). Current draw during extrusion, as well as tensile strength and tensile modulus, were tested. Test results of tensile strength, ranging from 9.21 MPa to 14.28 MPa, and tensile modulus, ranging from 802 MPa to 1014 MPa, have shown no clear correlation between wood particle size and tensile properties of the composites at the 3D printing scale. A clear increase in forces needed to extrude composites containing larger particles of wood was discovered, as well as the inability to extrude composites filled with the biggest tested particle size. To further explore this topic, SEM/EDS imaging of the tested composites was performed. Based on the test results, wood particle sizes ranging from one-fifth to one-half of the nozzle size are recommended for use as fillers in wood-PLA composites intended for 3D printing.

Topics & Concepts

Ultimate tensile strengthComposite materialMaterials scienceParticle sizeExtrusionComposite numberParticle (ecology)Tensile testingSawdustFiller (materials)Young's modulusBiologyChemistryOceanographyEcologyPhysical chemistryGeologyAdditive Manufacturing and 3D Printing Technologiesbiodegradable polymer synthesis and propertiesInnovations in Concrete and Construction Materials
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