Drop Impact Variation at the Extremes of Wettability

Abstract: Depicted are sequences of water drop impacts on copper, taken at 16,000 fps. The copper is treated with a heated alkali solution, resulting in a highly wetting, nanoscale structured, cupric oxide layer with a static contact angle approaching 0° with water. In the top series an 11.5 µl water droplet impacts this surface from 60 mm. The interfacial forces are large compared with the inertia; the low advancing contact angle of the expanding front continues to pull the droplet outward and absorbs the droplet witho… Show more

“…Also, the investigation of drop impact on superhydrophobic (SH) surfaces is important in some applications such as self-cleaning, anticorrosion, anti-icing, and drag reduction . Many factors affect the outcome of droplet impact on the solid surface including drop impact velocity, , surface wettability, − properties of drop liquid, , curvature, or angle of surfaces. − …”

Experimental Investigation of Water Droplet Impact on the Electrospun Superhydrophobic Cylindrical Glass: Contact Time, Maximum Spreading Factor, and Splash Threshold

“…Also, the investigation of drop impact on superhydrophobic (SH) surfaces is important in some applications such as self-cleaning, anticorrosion, anti-icing, and drag reduction . Many factors affect the outcome of droplet impact on the solid surface including drop impact velocity, , surface wettability, − properties of drop liquid, , curvature, or angle of surfaces. − …”

Experimental Investigation of Water Droplet Impact on the Electrospun Superhydrophobic Cylindrical Glass: Contact Time, Maximum Spreading Factor, and Splash Threshold