Complementary use of GCxGC-MS and PTR-MS for real-time monitoring of the emission of volatile organic compounds during 3D printing

Celem proponowanych badań jest opracowanie całościowej metody monitorowania w czasie rzeczywistym emisji lotnych związków organicznych podczas drukowania 3D, oraz oznaczenie związków generowanych podczas topienia polimerowych filamentów do drukarek 3D w celu oceny narażenia użytkowników na kontakt z potencjalnie szkodliwymi substancjami. Ustalone zostanie również natężenie emisji poszczególnych lotnych związków podczas kolejnych etapów procesu drukowania.

Details

Financial Program Name:

PRELUDIUM

Agreement:

UMO-2018/31/N/ST4/00809 z dnia 2019-07-26

Realisation period:

2019-07-26 - 2022-02-25

Project manager:

dr inż. Wojciech Wojnowski

Team members:

Investigator dr inż. Kaja Kalinowska
Lead PI dr inż. Wojciech Wojnowski
Supervisor prof. dr hab. inż. Bożena Zabiegała

Realised in:

Department of Analytical Chemistry

Project's value:

136 500.00 PLN

Request type:

National Research Programmes

Domestic:

Domestic project

Verified by:

Gdańsk University of Technology

Papers associated with that project

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total: 4

Year 2022

Emission Profiles of Volatiles during 3D Printing with ABS, ASA, Nylon, and PETG Polymer Filaments
Publication
- MOLECULES - Year 2022
In this short communication we characterize the emission of volatile organic compounds (VOCs) from fused filament fabrication (FFF) 3D printing using four polymer materials, namely polyethylene terephthalate glycol-modified (PETG), acrylonitrile styrene acrylate (ASA), Nylon, and acrylonitrile butadiene styrene (ABS). Detailed emission profiles are obtained during thermal degradation of the polymers as a function of temperature...

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Real-time monitoring of the emission of volatile organic compounds from polylactide 3D printing filaments
Publication
- SCIENCE OF THE TOTAL ENVIRONMENT - Year 2022
Establishing the emission profile of volatile organic compounds generated during fused deposition modeling 3D printing using polymer filaments is important in terms of both understanding the processes taking place during thermal degradation of thermoplastics, and assessing the user's exposure to potentially harmful volatiles. However, obtaining detailed, real-time qualitative and quantitative results poses a challenge. In this...

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Year 2021

Real-time monitoring of volatiles and particles emitted from thermoplastic filaments during 3D printing
Publication
- W. Wojnowski
- Year 2021
Presentation on the use of instrumental analytical techniques for the assessment of emission of volatiles and particulates during fdm 3d printing.

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Year 2020

Monitoring the BTEX Volatiles during 3D Printing with Acrylonitrile Butadiene Styrene (ABS) Using Electronic Nose and Proton Transfer Reaction Mass Spectrometry
Publication
- SENSORS - Year 2020
We describe a concept study in which the changes of concentration of benzene, toluene, ethylbenzene, and xylene (BTEX) compounds and styrene within a 3D printer enclosure during printing with different acrylonitrile butadiene styrene (ABS) filaments were monitored in real-time using a proton transfer reaction mass spectrometer and an electronic nose. The quantitative data on the concentration of the BTEX compounds, in particular...

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