Add to ORKGThe subject of this work is the instability mechanism of simple shear flows, like Hagen-Poiseuille pipe flow, which is a long-standing problem in fluid mechanics [1,2]. A possible analogy with phenomenological theory of ideal plasticity in solids is explored. It allows an extension of the Navier-Stokes equations making the simple shear flows unstable. Following von Mises [4], the existence of maximal allowed shear stress or "yield stress" in fluid is assumed. After the actual stresses have reached this value, a new physical mechanism will be activated attempting to reduce them. This mechanism results in a pressure-like force, which has to be added to the Navier-Stokes equations. The yield stress itself is a material constant, which does not...
Abstract The so-called ''second-order'' rheological model has been of widespread...
All matter that obeys conservation laws of physics [1- see endnote], offer resistance to change of t...
We present an analogy between large plastic deformations of polycrystals and turbulent flows in flui...
A wide range of materials encountered in our everyday life, such as clay suspensions, foams, concent...
The classical two dimensional theory of stability of parallel flow is extended to viscoelastic fluid...
Recently, a new kind of turbulence has been discovered in the flow of concentrated polymer melts an...
We consider the linear stability of channel flow of a shear-thinning viscoelastic fluid, replicating...
International audienceJammed systems all have a yield stress. Among these materials some have been s...
This report deals with the theory of the vortex street which enables the reproduction of the mechani...
International audienceThe archetypal feature of a viscoplastic fluid is its yield stress: If the mat...
In this paper, the physics of flow instability and turbulent transition in shear flows is studied by...
An experimental investigation of the solid ?uid transition in a yield stress shear thinning physical...
Most flows are turbulent in nature, yet fluids exhibit a plethora of inherent responses to applied s...
We report experimental microfluidic measurements and theoretical modeling of elastoviscoplastic mate...
International audienceWe study the rheological behavior of suspensions of noncolloidal spheres in yi...
Abstract The so-called ''second-order'' rheological model has been of widespread...
All matter that obeys conservation laws of physics [1- see endnote], offer resistance to change of t...
We present an analogy between large plastic deformations of polycrystals and turbulent flows in flui...
A wide range of materials encountered in our everyday life, such as clay suspensions, foams, concent...
The classical two dimensional theory of stability of parallel flow is extended to viscoelastic fluid...
Recently, a new kind of turbulence has been discovered in the flow of concentrated polymer melts an...
We consider the linear stability of channel flow of a shear-thinning viscoelastic fluid, replicating...
International audienceJammed systems all have a yield stress. Among these materials some have been s...
This report deals with the theory of the vortex street which enables the reproduction of the mechani...
International audienceThe archetypal feature of a viscoplastic fluid is its yield stress: If the mat...
In this paper, the physics of flow instability and turbulent transition in shear flows is studied by...
An experimental investigation of the solid ?uid transition in a yield stress shear thinning physical...
Most flows are turbulent in nature, yet fluids exhibit a plethora of inherent responses to applied s...
We report experimental microfluidic measurements and theoretical modeling of elastoviscoplastic mate...
International audienceWe study the rheological behavior of suspensions of noncolloidal spheres in yi...
Abstract The so-called ''second-order'' rheological model has been of widespread...
All matter that obeys conservation laws of physics [1- see endnote], offer resistance to change of t...
We present an analogy between large plastic deformations of polycrystals and turbulent flows in flui...