Zhao et al., 2020 - Google Patents
Jetting from an impacting drop containing a particleZhao et al., 2020
View HTML- Document ID
- 15115954081911696176
- Author
- Zhao W
- Lin S
- Chen L
- Li E
- Thoroddsen S
- Thoraval M
- Publication year
- Publication venue
- Physics of Fluids
External Links
Snippet
We investigate the dynamics of a drop containing a single solid particle impacting on a solid surface. The particle rebounds through the drop during impact and can separate from the deposited liquid above an impact velocity threshold. We show that this threshold can be …
- 239000002245 particle 0 title abstract description 140
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Zhao et al. | Jetting from an impacting drop containing a particle | |
| Banitabaei et al. | Droplet impact onto a solid sphere: Effect of wettability and impact velocity | |
| Roisman | Inertia dominated drop collisions. II. An analytical solution of the Navier–Stokes equations for a spreading viscous film | |
| Wijshoff | Drop dynamics in the inkjet printing process | |
| Mansoor et al. | Water entry without surface seal: extended cavity formation | |
| Kim et al. | Dynamic contact angle measurements on superhydrophobic surfaces | |
| Eral et al. | Contact angle hysteresis: a review of fundamentals and applications | |
| Guo et al. | Oblique droplet impact on superhydrophobic surfaces: Jets and bubbles | |
| Li et al. | Early azimuthal instability during drop impact | |
| Planchette et al. | Coalescence of armored interface under impact | |
| Muangnapoh et al. | Enhanced colloidal monolayer assembly via vibration-assisted convective deposition | |
| Zou et al. | Large bubble entrapment during drop impacts on a restricted liquid surface | |
| Guleria et al. | Experimental insights on the water entry of hydrophobic sphere | |
| Lee et al. | Drop impact on microwetting patterned surfaces | |
| Wang et al. | Formation of water in oil in water particles by drop impact on an oil layer | |
| Li et al. | The fastest drop climbing on a wet conical fibre | |
| Prince et al. | Jet impingement and the hydraulic jump on horizontal surfaces with anisotropic slip | |
| Sun et al. | Water sprays formed by impinging millimeter-sized droplets on superhydrophobic meshes | |
| Cervantes-Álvarez et al. | Air entrainment and granular bubbles generated by a jet of grains entering water | |
| Wang et al. | Water entry dynamics of rough microstructured spheres | |
| de Ruiter et al. | Thickness of the rim of an expanding lamella near the splash threshold | |
| Prince et al. | On jet impingement and thin film breakup on a horizontal superhydrophobic surface | |
| Wang et al. | Experimental study on the cavity dynamics of a sphere entering flowing water | |
| Yuan et al. | Water–air two-phase flow during entry of a sphere into water using particle image velocimetry and smoothed particle hydrodynamics | |
| Wu et al. | Simulating the collision of a moving droplet against a moving particle: Impact of Bond number, wettability, size ratio, and eccentricity |