Grasping the behavior of magnetorheological fluids in gradient pinch mode via microscopic imaging

Abstract: Magnetorheological (MR) fluids are suspensions of micrometer-sized ferromagnetic particles in a carrier fluid, which react to magnetic fields. The fluids can be operated in several fundamental modes. Contrary to the other modes, the rheology and microstructure formation of the MR fluid in the gradient pinch mode have been studied to a far lesser extent. The magnetic field distribution in the flow channel is intentionally made non-uniform. It is hypothesized that the Venturi-like contraction is achieved via flu… Show more

“…A mathematical expression of the magnetic flux density was established to assess the behaviour of compression and shear after the squeezing of MR fluids, which was simulated and compared using finite element analysis in [35]. A computational fluid dynamics model of a magnetorheological (MR) fluid operated in squeeze mode with a constant interface area was presented in [36][37][38].…”

Magnetic Characterization of MR Fluid by Means of Neural Networks

“…A mathematical expression of the magnetic flux density was established to assess the behaviour of compression and shear after the squeezing of MR fluids, which was simulated and compared using finite element analysis in [35]. A computational fluid dynamics model of a magnetorheological (MR) fluid operated in squeeze mode with a constant interface area was presented in [36][37][38].…”

Magnetic Characterization of MR Fluid by Means of Neural Networks