2021
DOI: 10.1007/s10965-021-02723-7
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The impact of thermal reprocessing of 3D printable polymers on their mechanical performance and airborne pollutant profiles

Abstract: The alterations in volatile organic compound (VOC) and ultrafine particulate (UFP) matter emission profiles following thermal reprocessing of multiple materials were examined. Additionally, mechanical performance of the materials was studied. The VOCs were identified by collecting air samples with Tenax® TA tubes and analyzing them with a GC–MS system. UFP concentrations were monitored with a portable ultrafine particle counter. Total VOC emissions of all materials were reduced by 28–68% after 5 thermal cycles… Show more

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Cited by 7 publications
(2 citation statements)
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“…This significant deviation cannot be confirmed from other studies [23] and is probably due to incorrect 3D printing parameters. The measured tensile strength for rPLA deviate from the data sheet, but agree with the results of other studies [24]. The fractures also show the characteristic surfaces for the two printing materials.…”
Section: Test Resultssupporting
confidence: 87%
“…This significant deviation cannot be confirmed from other studies [23] and is probably due to incorrect 3D printing parameters. The measured tensile strength for rPLA deviate from the data sheet, but agree with the results of other studies [24]. The fractures also show the characteristic surfaces for the two printing materials.…”
Section: Test Resultssupporting
confidence: 87%
“…Measurements are done using adsorbent tubes Tenax TA type to capture VOCs or SVOCs; tubes are connected with sampling devices with airflow from 50 to 200 ml/min. After sampling, tubes are analyzed using gas chromatography (GC) with flame ionizing detector (FID)/mass spectrometry (MS) detectors [44,65,66]. Thus, in 3D printing offices, total VOC concentration was found at high concentration in comparison with indoor air quality recommendations, in general.…”
Section: Chemical Measurementsmentioning
confidence: 99%