The Effect of Plasma Treatment on Microstructure, Roughness and Curing of Rubber Blend

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Published: Dec 31, 2024
DOI: https://doi.org/10.12693/APhysPolA.146.766
Keywords:
atmospheric plasma, diffuse coplanar surface barrier discharge (DCSBD), rubber, scanning electron microscope (SEM)

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M. Pajtášová
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
S. Ďurišová
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
D. Ondrušová
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
Z. Mičicová
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
S. Božeková
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
I. Labaj
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
R. Janík
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia
S. Lokšíková
Alexander Dubček University of Trenčin, Faculty of Industrial Technologies in Púchov, 491/30 I. Krasku, 020 01 Púchov, Slovakia

Abstract

In  this  paper, the  effect  of  low-temperature  atmospheric plasma on the surface of an elastomeric composite system, specifically uncured rubber, is considered.  The  effect  of  exposure time (2 s and 4 s), distance (0.5 mm) of atmospheric plasma was examined. Scanning electron microscopy was used to assess the structure and qualitatively chemical composition on the surface. It was revealed that atmospheric plasma based on a diffuse coplanar surface barrier discharge produces an oxidation of the rubber surface. Moreover, plasma treatment affects the surface topography and increases the roughness studied by atomic force microscopy already at 2 s exposure. However, the analogy of both exposure times does not significantly affect the selected specific properties. In terms of the processing properties of rubber and plasma treatment, the optimum cure time, scorch time, and torque values were evaluated using a rubber processing analyser. In this case, plasma treatment produced accelerated curing time compared to the reference rubber.

Article Details

How to Cite
[1]
M. Pajtášová, “The Effect of Plasma Treatment on Microstructure, Roughness and Curing of Rubber Blend”, Acta Phys. Pol. A, vol. 146, no. 6, p. 766, Dec. 2024, doi: 10.12693/APhysPolA.146.766.
Issue
Vol. 146 No. 6 (2024): Proceedings of the 29th Polish–Slovak Scientific Conference on Machine Modelling and Simulations 2024 (MMS 2024), pp. 737-834
Section
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This work is licensed under a Creative Commons Attribution 4.0 International License.

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