Mechanical investigation of compositing by resin filling in lattice structures manufactured with fused deposition modelling

Kayacan, Mevlüt Yunus

doi:10.1177/07316844241243149

Journal of Reinforced Plastics and Composites

2024

DOI: 10.1177/07316844241243149

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Mechanical investigation of compositing by resin filling in lattice structures manufactured with fused deposition modelling

Mevlüt Yunus Kayacan

Abstract: Fused Deposition Modeling (FDM) is a widely used polymer additive manufacturing technique for polymer part manufacturing and prototyping. However, manufacturing speed, mechanical properties, and high costs, limit its suitability for industrial applications. In this study, researchers blended polyester and polyurethane resins with lattice structures to achieve a remarkable 70% reduction in production time and a 75% decrease in manufacturing costs. They explored five lattice structure geometries relevant to comm… Show more

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2024

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Mechanical characterization and puncture resistance of 3D‐printed PLA lattice structures

Mani,

Murugaiyan,

Shanmugam

2024

Polymer Engineering & Sci

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The increasing application of additively manufactured (AM) materials in engineering and biomedical fields highlights the necessity of understanding their mechanical behavior, particularly with complex lattice structures. Polylactic acid (PLA), a popular biopolymer in additive manufacturing, exhibits mechanical characteristics highly dependent on its structural design. This research investigates the quasi‐static puncture failure analysis and mechanical characteristics of additively manufactured (AM) polylactic acid (PLA) materials with various lattice structures. The mechanical behavior, including tensile strength, flexural properties, interlaminar shear strength (ILSS), Izod impact resistance, and quasi‐static punch shear strength (QS‐PSS), was investigated following the respective ASTM protocols. Results indicate a 6% increase in tensile strength, to ca. 28 MPa, for the triangular PLA lattice structure compared with plain lattice structures. In the flexural test, the hexagonal structure showed a 13% increase in bending strength, to ca. 45 MPa, compared with the plain structure. Additionally, the hexagonal PLA lattice structure exhibited a 24% increase in shear strength, to approximately 8 MPa, over the plain lattice structure in the interlaminar shear strength analysis. In the Izod impact analysis, the plain lattice structure demonstrated a 17% increase in impact strength, to ca. 278 J/m, compared with the circular structure. A stainless‐steel hemispherical indenter was employed to investigate the quasi‐static punch shear behavior (QS‐PSS) of different lattice structures. The triangular structure displayed increased total energy absorption capacity and specific energy absorption of ca. 19 J and 0.529 J/g, respectively, compared with other lattice structures. These results are important for the creation of additively manufactured PLA lattice structures, improving the puncture resistance of advanced composites.Highlights Polylactic acid (PLA) lattice structures were fabricated. Plain, circular, triangular, and hexagonal lattice structures were investigated. Lattice structures were used as reinforcements. The triangular structure demonstrated improved strength. The triangular structure reduced crack formation and propagation.

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Mechanical characterization and puncture resistance of 3D‐printed PLA lattice structures

Mani,

Murugaiyan,

Shanmugam

2024

Polymer Engineering & Sci

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Mechanical investigation of compositing by resin filling in lattice structures manufactured with fused deposition modelling

Cited by 1 publication

References 60 publications

Mechanical characterization and puncture resistance of 3D‐printed PLA lattice structures

Mechanical characterization and puncture resistance of 3D‐printed PLA lattice structures

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