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Characterization of Ultrafine Particles and VOCs Emitted from a 3D Printer

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  • Sarka Bernatikova

    (Department of Fire Protection, Faculty of Safety Engineering, VSB—Technical University of Ostrava, CZ708 00 Ostrava, Czech Republic)

  • Ales Dudacek

    (Department of Fire Protection, Faculty of Safety Engineering, VSB—Technical University of Ostrava, CZ708 00 Ostrava, Czech Republic)

  • Radka Prichystalova

    (Department of Occupational and Process Safety, Faculty of Safety Engineering, VSB—Technical University of Ostrava, CZ708 00 Ostrava, Czech Republic)

  • Vit Klecka

    (Department of Fire Protection, Faculty of Safety Engineering, VSB—Technical University of Ostrava, CZ708 00 Ostrava, Czech Republic)

  • Lucie Kocurkova

    (Department of Occupational and Process Safety, Faculty of Safety Engineering, VSB—Technical University of Ostrava, CZ708 00 Ostrava, Czech Republic)

Abstract

Currently, widely available three-dimensional (3D) printers are very popular with the public. Previous research has shown that these printers can emit ultrafine particles (UFPs) and volatile organic compounds (VOCs). Several studies have examined the emissivity of filaments from 3D printing, except glycol modified polyethylene terephthalate (PETG) and styrene free co-polyester (NGEN) filaments. The aim of this study was to evaluate UFP and VOC emissions when printing using a commonly available 3D printer (ORIGINAL PRUSA i3 MK2 printer) using PETG and NGEN. The concentrations of UFPs were determined via measurements of particle number concentration and size distribution. A thermal analysis was carried out to ascertain whether signs of fiber decomposition would occur at printing temperatures. The total amount of VOCs was determined using a photoionization detector, and qualitatively analyzed via gas chromatography-mass spectrometry. The total particle concentrations were 3.88 × 10 10 particles for PETG and 6.01 × 10 9 particles for NGEN. VOCs at very low concentrations were detected in both filaments, namely ethylbenzene, toluene, and xylene. In addition, styrene was identified in PETG. On the basis of our results, we recommend conducting additional measurements, to more accurately quantify personal exposure to both UFPs and VOCs, focusing on longer exposure as it can be a source of potential cancer risk.

Suggested Citation

  • Sarka Bernatikova & Ales Dudacek & Radka Prichystalova & Vit Klecka & Lucie Kocurkova, 2021. "Characterization of Ultrafine Particles and VOCs Emitted from a 3D Printer," IJERPH, MDPI, vol. 18(3), pages 1-15, January.
  • Handle: RePEc:gam:jijerp:v:18:y:2021:i:3:p:929-:d:484746
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    References listed on IDEAS

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    1. Parham Azimi & Torkan Fazli & Brent Stephens, 2017. "Predicting Concentrations of Ultrafine Particles and Volatile Organic Compounds Resulting from Desktop 3D Printer Operation and the Impact of Potential Control Strategies," Journal of Industrial Ecology, Yale University, vol. 21(S1), pages 107-119, November.
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