A Liouville theorem for stationary incompressible fluids of von Mises type

Abstract: We consider entire solutions $u$ of the equations describing the stationary flow of a generalized Newtonian fluid in 2D concentrating on the question, if a Liouville-type result holds in the sense that the boundedness of $u$ implies its constancy. A positive answer is true for $p$-fluids in the case $p>1$ (including the classical Navier-Stokes system for the choice $p=2$), and recently we established this Liouville property for the Prandtl-Eyring fluid model, for which the dissipative potential has nearly linear growth. Here we finally discuss the case of perfectly plastic fluids whose flow is governed by a von Mises-type stress-strain relation formally corresponding to the case $p=1$. it turns out that, for dissipative potentials of linear growth, the condition of $\mu$-ellipticity with exponent $\mu<2$ is sufficient for proving the Liouville theorem.