Comparing efficiencies of polypropylene treatment by atmospheric pressure plasma jets-Reference-Cited by-同舟云学术

Comparing efficiencies of polypropylene treatment by atmospheric pressure plasma jets

Published:2023-07-11 Issue:11 Volume:20 Page:
ISSN:1612-8850
Container-title:Plasma Processes and Polymers
language:en
Short-container-title:Plasma Processes & Polymers

Author:

Polášková Kateřina¹²³,Ozkan Alp⁴,Klíma Miloš¹,Jeníková Zdenka⁵,Buddhadasa Madhuwanthi⁴,Reniers François⁴,Zajíčková Lenka¹²³^ORCID

Affiliation:

1. Department of Theoretical and Experimental Electrical Engineering Brno University of Technology Brno Czech Republic

2. Department of Condensed Matter Physics Masaryk University Brno Czech Republic

3. Plasma Technologies, Central European Institute of Technology Brno University of Technology Brno Czech Republic

4. Chemistry of Surfaces, Interfaces and Nanomaterials Université Libre de Bruxelles Brussels Belgium

5. Department of Materials Engineering Czech Technical University in Prague Prague Czech Republic

Abstract

AbstractPlasma treatment of polypropylene (PP) is a well‐established method of improving its surface properties. However, the efficiencies of different plasma discharges are seldom compared. Herein, we discuss the differences in PP treated by three arc‐based commercial plasma jets working in dry air, Plasmatreat rotating plasma jet (PT‐RPJ), AFS PlasmaJet® (AFS‐PJ), and SurfaceTreat gliding arc jet (ST‐GA), and by the low‐temperature RF plasma slit jet (RF‐PSJ) working in argon. The AFS‐PJ has a significantly different reactive species composition dominated by nitrogen oxides. It induced higher thermal loads leading to surface damage. The other arc‐based jets (PT‐RPJ and ST‐GA) created the PP surface with higher oxygen and nitrogen concentration than the low‐temperature RF‐PSJ. It induced a higher adhesion strength measured on PP‐aluminum joints.

Publisher

Wiley

Subject

Polymers and Plastics,Condensed Matter Physics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/ppap.202300031

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