The flow of a viscoelastic fluid through a microfluidic flow-focusing device is investigated numerically with a finite-volume code using the upper-convected Maxwell (UCM) and Phan-Thien–Tanner (PTT) models. The conceived device is shaped much like a conventional planar “cross-slot” except for comprising three inlets and one exit arm. Strong viscoelastic effects are observed as a consequence of the high deformation rates. In fact, purely elastic instabilities that are entirely absent in the corresponding Newtonian fluid flow are seen to occur as the Deborah number (De) is increased above a critical threshold. From two-dimensional numerical simulations we are able to distinguish two types of instability, one in which the flow becomes asymmetr...
We investigate the stability of steady planar stagnation flows of a dilute polyethylene oxide (PEO) ...
In this work we propose a new type of microfluidic rectifier, which is able to operate efficiently u...
Growth of the microfluidics field has triggered numerous advances in focusing and separating micropa...
The flow of a viscoelastic fluid through a microfluidic flow-focusing device is investigated numeric...
Abstract. The flow of viscoelastic fluids through a microfluidic flow-focusing device was studied nu...
In this work we demonstrate numerically, using a 3D finite-volume method, that viscoelastic flow in ...
Abstract. The flow visualizations of viscoelastic flows in the mixing-separating geometry of Cochran...
We present an experimental investigation of viscoelastic fluid flow in a cross-slot microgeometry un...
Many artificial and natural fluids contain macromolecules, particles or droplets that impart complex...
This paper reports flow direction-dependent elastic instability in a symmetry-breaking microchannel....
The objective of this work is to characterise the onset of laterally asymmetric flow of viscoelastic...
The cross-streamline migration of a spherical particle in a viscoelastic fluid flowing in a wide sl...
We implemented a finite element-front tracking method (FE-FTM) to understand the drop dynamics in mi...
We investigate the stability of steady planar stagnation flows of a dilute polyethylene oxide (PEO) ...
We investigate the stability of steady planar stagnation flows of a dilute polyethylene oxide (PEO) ...
In this work we propose a new type of microfluidic rectifier, which is able to operate efficiently u...
Growth of the microfluidics field has triggered numerous advances in focusing and separating micropa...
The flow of a viscoelastic fluid through a microfluidic flow-focusing device is investigated numeric...
Abstract. The flow of viscoelastic fluids through a microfluidic flow-focusing device was studied nu...
In this work we demonstrate numerically, using a 3D finite-volume method, that viscoelastic flow in ...
Abstract. The flow visualizations of viscoelastic flows in the mixing-separating geometry of Cochran...
We present an experimental investigation of viscoelastic fluid flow in a cross-slot microgeometry un...
Many artificial and natural fluids contain macromolecules, particles or droplets that impart complex...
This paper reports flow direction-dependent elastic instability in a symmetry-breaking microchannel....
The objective of this work is to characterise the onset of laterally asymmetric flow of viscoelastic...
The cross-streamline migration of a spherical particle in a viscoelastic fluid flowing in a wide sl...
We implemented a finite element-front tracking method (FE-FTM) to understand the drop dynamics in mi...
We investigate the stability of steady planar stagnation flows of a dilute polyethylene oxide (PEO) ...
We investigate the stability of steady planar stagnation flows of a dilute polyethylene oxide (PEO) ...
In this work we propose a new type of microfluidic rectifier, which is able to operate efficiently u...
Growth of the microfluidics field has triggered numerous advances in focusing and separating micropa...