Add to ORKGWe study droplet coalescence in a molecular system with a variable viscosity and a colloid-polymer mixture with an ultralow surface tension. When either the viscosity is large or the surface tension is small enough, we observe that the opening of the liquid bridge initially proceeds at a constant speed set by the capillary velocity. In the first system we show that inertial effects become dominant at a Reynolds number of about 1.5+/- 0.5 and the neck then grows as the square root of time. In the second system we show that decreasing the surface tension by a factor of 10(5) opens the way to a more complete understanding of the hydrodynamics involved
The dynamics of coalescence of small Lennard–Jones droplets as a function of droplet size and temper...
We present the results of a combined experimental and numerical investigation of the coalescence of ...
Quantitative experimental data on the coalescence behavior of sessile droplets with different but co...
We study droplet coalescence in a molecular system with a variable viscosity and a colloid-polymer m...
We study the coalescence of a drop with its bulk phase in fluid-fluid demixing colloid-polymer mixtu...
By the combination of high-speed imaging and numerical simulation, we explore the hydrodynamics and ...
The coalescence of water drops on a substrate is studied experimentally. We focus on the rapid growt...
An investigation of the coalescence of two water drops on a surface is presented and compared with d...
The partial coalescence of a droplet onto a planar liquid/liquid interface is investigated theoretic...
The partial coalescence of a droplet onto a planar liquid-liquid interface is investigated experimen...
When a drop is deposited gently onto the surface of a layer of the same liquid, it sits momentarily ...
When a droplet of liquid 1 falls through liquid 2 to eventually hit the liquid 2-liquid 1 interface,...
When two Newtonian liquid droplets are brought into contact on a solid substrate, a highly curved me...
When fluid droplets coalesce, the flow is initially controlled by a balance between surface tension ...
Dynamics of the pendant drop coalescing with a sessile drop to form a single daughter droplet is kno...
The dynamics of coalescence of small Lennard–Jones droplets as a function of droplet size and temper...
We present the results of a combined experimental and numerical investigation of the coalescence of ...
Quantitative experimental data on the coalescence behavior of sessile droplets with different but co...
We study droplet coalescence in a molecular system with a variable viscosity and a colloid-polymer m...
We study the coalescence of a drop with its bulk phase in fluid-fluid demixing colloid-polymer mixtu...
By the combination of high-speed imaging and numerical simulation, we explore the hydrodynamics and ...
The coalescence of water drops on a substrate is studied experimentally. We focus on the rapid growt...
An investigation of the coalescence of two water drops on a surface is presented and compared with d...
The partial coalescence of a droplet onto a planar liquid/liquid interface is investigated theoretic...
The partial coalescence of a droplet onto a planar liquid-liquid interface is investigated experimen...
When a drop is deposited gently onto the surface of a layer of the same liquid, it sits momentarily ...
When a droplet of liquid 1 falls through liquid 2 to eventually hit the liquid 2-liquid 1 interface,...
When two Newtonian liquid droplets are brought into contact on a solid substrate, a highly curved me...
When fluid droplets coalesce, the flow is initially controlled by a balance between surface tension ...
Dynamics of the pendant drop coalescing with a sessile drop to form a single daughter droplet is kno...
The dynamics of coalescence of small Lennard–Jones droplets as a function of droplet size and temper...
We present the results of a combined experimental and numerical investigation of the coalescence of ...
Quantitative experimental data on the coalescence behavior of sessile droplets with different but co...