Effects of multiple wetting incidents, shear and sliding friction on lubricant stability in SLIPS

Effects of multiple wetting incidents, shear and sliding friction on lubricant stability in SLIPS

Surface icing almost invariably derives from the precursory step of liquid water encountering the surface. Thus, slippery liquid infused porous surfaces, SLIPS, must possess steady wetting durability, and lubricant stability to function as a reliable hydro−/icephobic surface design especially in out...

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Bibliographic Details
Published in:Cold regions science and technology Vol. 211; p. 103878
Main Authors: Niemelä, Henna, Tuominen, Mikko, Koivuluoto, Heli, Vuoristo, Petri
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2023
Subjects:
Durability
Friction
Hydrophobic surfaces
Hydrophobicity
Icephobicity
Lubricant stability
Multi cycle
Multicycle Wilhelmy plate
Plates (structural components)
Porous surface
Shear flow
Shear stress
Sliding friction
Slippery liquid infused porous surface
Slippery liquid infused porous surfaces
Slippery surfaces
Stability
Wetting
Wilhelmy plate
Wetting
Slippery surfaces
Durability
Slippery liquid infused porous surfaces
Icephobicity
Hydrophobic surfaces
Sliding friction
Lubricant stability
Multicycle Wilhelmy plate
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Summary:Surface icing almost invariably derives from the precursory step of liquid water encountering the surface. Thus, slippery liquid infused porous surfaces, SLIPS, must possess steady wetting durability, and lubricant stability to function as a reliable hydro−/icephobic surface design especially in outdoor applications. Additionally, they should maintain their phobic performance under shear forces, and possess low sliding friction to act as a slippery, multirepellent surfaces. These characteristics are needed in variable applications ranging from moving and rotating blades to steady surfaces, operating in altering climate conditions. More profound durability testing is needed to examine the loss of surface functionality when the lubricant is depleted from the structure via various routes. In addition, the durability tests should be designed to serve the application-related purposes and thus, to reveal performance differences between slippery surfaces for further analysis and targeted end-use development. Here, we tested the wetting durability and stability of SLIPS with multicycle Wilhelmy plate by dipping the surfaces multiple times in water bath. Additionally, we examined the effects of centrifugal and friction-based shear stress to investigate the lubricant depletion from the structure. Tests that measure the durability and the stability of SLIPS designs are in great need in further developing functional slippery surfaces for real outdoor application coatings which encounter environmental stresses, e.g., wetting and icing. Acknowledging the material differences under specific stresses will guide designing the slippery surfaces towards more specific and functionable end-use applications. •Slippery surfaces have unique properties based on material pairs used.•Thermal expansion of porous solid material influences lubricant depletion.•Forced wetting still challenging for lubricant stabilty.
ISSN:0165-232X
1872-7441
1872-7441
DOI:10.1016/j.coldregions.2023.103878