Influence of Rheological Properties on the Starting Torque of Magnetic Fluid Seal

In this article, the experimental investigation and analysis of the effect of rheological properties on the starting torque of the magnetic fluid seal are reported. The change of the starting torque with a standing time for perfluoropolyether-based magnetic fluid seal and diester-based magnetic fluid seal, as well as the viscosity of magnetic fluids under the relevant magnetic field and shear rate, were measured. It was observed that the magnetic fluid with higher viscosity correspondingly exhibited higher starting torque. The starting torque of seals with two different magnetic fluids exhibited the same variation tendency. The starting torque was exponentially increased with the standing time and then tended to be a stable state with small scale fluctuation. The average maximum starting torque of PFPE-based ferrofluid seal after standing five days was ten times as large as the value of the initial standing, whereas that of diester-based ferrofluid seal was 3.5 times as large the value of the initial standing. The rheological behavior was the key factor influencing the starting torque of the magnetic fluid seal. Particle agglomeration and shear thinning were the main microscopic mechanisms leading to the change of starting torque with a standing time. The correlation between macroscopic rheological properties and starting torque was established based on the microstructure variation.