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Selective laser sintering (SLS) of 3D printlets using a 3D printer comprised of IR/red-diode laser

Srushti Lekurwale, Tukaram Karanwad, Subham Banerjee

2022Annals of 3D Printed Medicine61 citationsDOIOpen Access PDF

Abstract

The aim of this study was to employ and understand the feasibility of an infrared (IR)/red-diode laser with a wavelength of 808 nm for the selective laser sintering (SLS)-mediated sintering of 3D printlets, altering the dye composition and temperature variations. Kollicoat® IR (KIR) and an infrared (IR) laser-absorbing dye were physically mixed at various concentrations and subjected to SLS-mediated sintering to achieve 3D printlets by varying printing temperature (feed and print beds) at a fixed laser power ratio. Initially, the desired concentration of dye (1.25% w/w) was selected based on its sintering performance, and the same concentration was used to sinter the physical mixtures (PMs) at different feed bed temperatures (between 100 °C and 130 °C) and print bed temperature (120 °C to 150 °C), keeping the laser power ratio constant (1.0). It was found that good sintering performance was associated with a feed bed temperature of 130 °C and a print bed temperature of 150 °C. Printlets obtained from the aforementioned conditions showed highest dimensional accuracy (9.31 ± 0.30 mm diameter and 3.56 ± 0.04 mm thickness) in respect to feeded CAD dimensions (10 mm diameter and 3.60 mm thickness) with an average weight of 77.45 ± 4.56 mg. In addition, no physical/thermal or chemical degradation of the sintered 3D printlets was observed during the thermal and functional group analysis, respectively. Depending on the conditions given, we can conclude that an IR/red diode laser with a wavelength of 808 nm and a laser power ratio of 1.0 is feasible for sintering 3D printlets.

Topics & Concepts

SinteringMaterials scienceSelective laser sinteringLaserDiodeInfraredWavelengthLaser diodeAnalytical Chemistry (journal)Laser power scalingFar-infrared laserComposite materialOptoelectronicsOpticsChemistryChromatographyPhysicsAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and ProcessesPhotopolymerization techniques and applications
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