A mechanism for oscillatory instability in viscoelastic cross - slot flow
نویسنده
چکیده
Interior stagnation point flows of viscoelastic liquids arise in a wide variety of applications including extensional viscometry, polymer processing and microfluidics. Experimentally, these flows have long been known to exhibit instabilities, but the mechanisms underlying them have not previously been elucidated. We computationally demonstrate the existence of a supercritical oscillatory instability of low-Reynolds number viscoelastic flow in a two-dimensional cross-slot geometry. The fluctuations are closely associated with the “birefringent strand” of highly stretched polymer chains associated with the outflow from the stagnation point at high Weissenberg number. Additionally, we describe the mechanism of instability, which arises from the coupling of flow with extensional stresses and their steep gradients in the stagnation point region.
منابع مشابه
Elastic instabilities in planar elongational flow of monodisperse polymer solutions
We investigate purely elastic flow instabilities in the almost ideal planar stagnation point elongational flow field generated by a microfluidic optimized-shape cross-slot extensional rheometer (OSCER). We use time-resolved flow velocimetry and full-field birefringence microscopy to study the behavior of a series of well-characterized viscoelastic polymer solutions under conditions of low fluid...
متن کاملPurely elastic flow instabilities in microscale cross-slot devices.
We present an experimental investigation of viscoelastic fluid flow in a cross-slot microgeometry under low Reynolds number flow conditions. By using several viscoelastic fluids, we investigate the effects of the microchannel bounding walls and the polymer solution concentration on the flow patterns. We demonstrate that for concentrated polymer solutions, the flow undergoes a bifurcation above ...
متن کاملBuckling instabilities in dilute polymer solution elastic strands
A microfluidic oscillatory cross-slot flow is used to visualize birefringent strands in dilute polystyrene solutions with high temporal resolution, focusing specifically on reversals in the flow direction. Due to polymer conformation hysteresis, the elastic strands are slow to relax and demonstrate a compressive modulus, resulting in a “buckling instability.” An elastic loop of birefringence fo...
متن کاملOnset of Primary and Secondary Instabilities of Viscoelastic Fluids Saturating a Porous Layer Heated from below by a Constant Flux
We analyze the thermal convection thresholds and linear characteristics of the primary 1 and secondary instabilities for viscoelastic fluids saturating a porous horizontal layer heated from 2 below by a constant flux. Galerkin method is used to solve the eigenvalue problem by taking 3 into account the elasticity of the fluid, the ratio between the viscosity of the solvent and the total 4 viscos...
متن کاملThe matching of 3D Rolie-Poly viscoelastic numerical simulations with experimental polymer melt flow within a slit and a cross-slot geometry
his paper is concerned with matching a fully three-dimensional 3D viscoelastic numerical imulation with experimental results obtained using a multi-pass rheometer for both an entry-exit lit flow and a cross-slot geometry. The 3D code simulates the time evolution of steady flows using multi-mode Rolie-Poly constitutive equation. A test polydisperse polystyrene was characterized or both its linea...
متن کامل