Effect of roughness on wettability and floatability: Based on wetting film drainage between bubbles and solid surfaces

Wetting film thinning measurement was introduced to clarify the wettability and floatability of solid surfaces with varying roughness. The wettability was quantified using the contact angle measurement combined with the dynamic force microbalance test between solid surfaces and water droplets, while...

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Published inInternational journal of mining science and technology Vol. 32; no. 6; pp. 1389 - 1396
Main Authors Li, Ming, Xing, Yaowen, Zhu, Chunyun, Liu, Qinshan, Yang, Zili, Zhang, Rui, Zhang, Youfei, Xia, Yangchao, Gui, Xiahui
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2022
Elsevier
Subjects
Floatability
Flotation
Roughness
Wettability
Wetting film
Floatability
Wetting film
Wettability
Flotation
Roughness
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Abstract Wetting film thinning measurement was introduced to clarify the wettability and floatability of solid surfaces with varying roughness. The wettability was quantified using the contact angle measurement combined with the dynamic force microbalance test between solid surfaces and water droplets, while the floatability was investigated by the bubble-solid surface dynamic attachment observation and the induction time measurement. The results show that the water contact angles reduce (14.53°, 12.74°, and 6.71°) with the increase of glass surface roughness, while the water droplet-glass adhesion forces intensify (11.1, 19.1 and 19.2 μN) owing to the stable wetting film. The distortion of the contact surface and the Wenzel state are the causes. In contrast, the hydrophobized surfaces have the growing apparent contact angles (38.08°, 69.81°, and 81.01°), declining adhesion strength and shortening induction time (863, 352 and 12 ms) along with the increasing surface roughness. The weak wettability and fine floatability on the rough hydrophobized surface is reflected in the fast wetting film drainage dynamics and three-phase contact formation, which may be attributed to the wetting film with short diameter on tiny rough nubs and the entrapped air in the grooves as a bridge between the bulk bubble and the solid surface.
AbstractList Wetting film thinning measurement was introduced to clarify the wettability and floatability of solid surfaces with varying roughness. The wettability was quantified using the contact angle measurement combined with the dynamic force microbalance test between solid surfaces and water droplets, while the floatability was investigated by the bubble-solid surface dynamic attachment observation and the induction time measurement. The results show that the water contact angles reduce (14.53°, 12.74°, and 6.71°) with the increase of glass surface roughness, while the water droplet-glass adhesion forces intensify (11.1, 19.1 and 19.2 μN) owing to the stable wetting film. The distortion of the contact surface and the Wenzel state are the causes. In contrast, the hydrophobized surfaces have the growing apparent contact angles (38.08°, 69.81°, and 81.01°), declining adhesion strength and shortening induction time (863, 352 and 12 ms) along with the increasing surface roughness. The weak wettability and fine floatability on the rough hydrophobized surface is reflected in the fast wetting film drainage dynamics and three-phase contact formation, which may be attributed to the wetting film with short diameter on tiny rough nubs and the entrapped air in the grooves as a bridge between the bulk bubble and the solid surface.
Author Liu, Qinshan
Gui, Xiahui
Li, Ming
Xia, Yangchao
Zhang, Rui
Xing, Yaowen
Zhang, Youfei
Zhu, Chunyun
Yang, Zili
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Keywords Floatability
Wetting film
Wettability
Flotation
Roughness
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SSID ssj0000684852
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Snippet Wetting film thinning measurement was introduced to clarify the wettability and floatability of solid surfaces with varying roughness. The wettability was...
SourceID doaj
crossref
elsevier
SourceType Open Website
Enrichment Source
Index Database
Publisher
StartPage 1389
SubjectTerms Floatability
Flotation
Roughness
Wettability
Wetting film
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Title Effect of roughness on wettability and floatability: Based on wetting film drainage between bubbles and solid surfaces
URI https://dx.doi.org/10.1016/j.ijmst.2022.09.013
https://doaj.org/article/66adc83afbc7436ea5e9881f5ba72149
Volume 32
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