Influence of Triangular Pattern Infill on 3D Printed Torus Mechanical Behavior

BRAILEANU, PATRICIA; PRISECARU, DELIA; CRISAN, NICOLETA; STOICA, MARILENA; CALIN, ANDREI

doi:10.37358/MP.22.4.5634

Open Access Research Article

Influence of Triangular Pattern Infill on 3D Printed Torus Mechanical Behavior

PATRICIA ISABELA BRAILEANU, DELIA ALEXANDRA PRISECARU, NICOLETA CRISAN, MARILENA STOICA, ANDREI CALIN

DOI 10.37358/MP.22.4.5634

Published 06 Jan 2023

Issue Vol. 59, No. 4

Pages 155–164

Abstract

The torus or toroidal surfaces are geometries that can be easily found in various industrial applications, from containers, devices, cartwheels, design objects and even machine parts, being also a geometric primitive often used in solid constructive geometry. For a better understanding of the torus–type surface mechanical behavior, this paper aims to study the toroidal geometry manufactured from ABS material by using the FDM 3D printing method and subjecting each sample to compression tests to identify the influence of the sample filling percentage in the case of triangular pattern.

Keywords: torus; additive manufacturing; mechanical behavior; compression test

How to Cite this Article

BRAILEANU, P., PRISECARU, D., CRISAN, N., STOICA, M., & CALIN, A. (2023). Influence of Triangular Pattern Infill on 3D Printed Torus Mechanical Behavior. Materiale Plastice, 59(4), 155–164. https://doi.org/10.37358/MP.22.4.5634

BRAILEANU P, PRISECARU D, CRISAN N, STOICA M, CALIN A. Influence of Triangular Pattern Infill on 3D Printed Torus Mechanical Behavior. Materiale Plastice. 2023;59(4):155–164. doi: 10.37358/MP.22.4.5634

P. BRAILEANU, D. PRISECARU, N. CRISAN, M. STOICA, and A. CALIN, "Influence of Triangular Pattern Infill on 3D Printed Torus Mechanical Behavior,” Materiale Plastice, vol. 59, no. 4, pp. 155–164, 2023. doi: 10.37358/MP.22.4.5634

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