Dynamic behavior of droplets impacting cylindrical superhydrophobic surfaces with different structures

Abstract: The dynamic behavior of droplets impacting cylindrical superhydrophobic surfaces with different structures (azimuthal groove, axial groove, pillar) is studied in this work. The rebound and splash thresholds with different structures were also proposed, which depended on D/D0 (where D is the ratio of cylinder diameter and D0 is the initial droplet diameter) and the surface structure of the substrate. Based on the energy conservation approach, a complete rebound threshold semi-empirical model is constructed for … Show more

“…Richard et al 27 found that the contact time τ is independent of the impact velocity. Qian et al 28 concluded that the droplet contact time is affected by various factors such as substrate wettability, curvature, and substrate structure. When 0 < We < 17, the contact time decreases as increases We; when 17 < We < 70, the contact time tends to remain constant as increases We, irrespective of the droplet impact velocity.…”

“…Richard et al found that the contact time τ is independent of the impact velocity. Qian et al . studied the dynamic behavior of droplets impinging on cylindrical superhydrophobic surfaces with varying structures and concluded that the droplet contact time is affected by various factors such as substrate wettability, curvature, and substrate structure.…”

An Experimental Study on Complete Droplet Rebound from Soft Surfaces: Critical Weber Numbers, Maximum Spreading, and Contact Time

“…Richard et al 27 found that the contact time τ is independent of the impact velocity. Qian et al 28 concluded that the droplet contact time is affected by various factors such as substrate wettability, curvature, and substrate structure. When 0 < We < 17, the contact time decreases as increases We; when 17 < We < 70, the contact time tends to remain constant as increases We, irrespective of the droplet impact velocity.…”

“…Richard et al found that the contact time τ is independent of the impact velocity. Qian et al . studied the dynamic behavior of droplets impinging on cylindrical superhydrophobic surfaces with varying structures and concluded that the droplet contact time is affected by various factors such as substrate wettability, curvature, and substrate structure.…”

An Experimental Study on Complete Droplet Rebound from Soft Surfaces: Critical Weber Numbers, Maximum Spreading, and Contact Time

Experimental study on the spreading length of liquid film induced by single water drop impinging on inclined cylindrical surface

Asymmetric breakup of a single droplet through a Y-junction microchannel with non-uniform flow rate