Influence of roughness on polar and dispersed components of surface free energy and wettability properties of copper and steel surfaces

Influence of roughness on polar and dispersed components of surface free energy and wettability properties of copper and steel surfaces

The most urgent problems in meso-, micro- and nano-technological productions are controlling wetting of metals and alloys and liquid spreading over engineering surfaces after their hardware abrasive processing. Nowadays, there is a lack in theoretical basis and comprehensive experimental studies to...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 422; p. 127518
Main Authors: Kuznetsov, G.V., Islamova, A.G., Orlova, E.G., Ivashutenko, A.S., Shanenkov, I.I., Zykov, I.Y., Feoktistov, D.V.
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 25-09-2021
Elsevier BV
Subjects:
Contact angle
Copper
Dispersion
Free energy
Grit
Grit size
Hardware
Hardware abrasive processing
Parameters
Roughness parameter
Steel
Surface free energy
Surface layers
Surface properties
Surface roughness
Texture
Three dimensional analysis
Wettability
Wetting
Grit size
Wetting
Surface free energy
Hardware abrasive processing
Roughness parameter
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Summary:The most urgent problems in meso-, micro- and nano-technological productions are controlling wetting of metals and alloys and liquid spreading over engineering surfaces after their hardware abrasive processing. Nowadays, there is a lack in theoretical basis and comprehensive experimental studies to predict the texture formation and change of the functional surface properties (including wetting) of metals and alloys after abrasive processing. In this study, based on the analysis of the three dimensional roughness parameters (amplitude, hybrid and feature) and elemental composition of the near-surface layer, the features of texture formation, changes in the surface free energy and wettability of copper and steel surfaces that are widely used in industry were established after their hardware abrasive processing. The use of abrasive material with an average grit size of up to 100 μm was found to significantly change the surface roughness. The abrasive processing significantly modifies the polar component in the surface free energy, while not influencing its dispersed component. The texture parameters allowing one to control both the growth and decrease of the polar component in the surface free energy were determined. It is shown that the abrasive processing directly influences the wettability properties and allows varying the contact angles in a sufficiently wide range of from 54.0° to 108.2° (for copper surfaces) and from 71.6° to 89.5° (for steel surfaces). [Display omitted] •To change the roughness of metals, abrasives with a grit size of up to 100 μm must be used.•The polar component of the SFE depends on the surface roughness.•The roughness parameters predicting the change in the SFE and wetting were established.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2021.127518