References
- Fluid Mech. v.78 no.2 Wimmer, M
- J. Fluid Eng v.100 Nakabayashi, K
- J. Fluid Mech v.119 Yamaguchi, G. J.
- sov. Phys. Usp v.17 no.2 Shiliomis, M. I.
- 日本 機械 學會論文執(B) v.59-562 磁性 流體ののクェツト流れ關する 實驗的 硏究 山口ほか(2名)
This study investigated torque characteristics for Couette flow experimentally under circumstaces that ferrofluids were between two coaxial spheres. Torque measurement was obtained for the situation where the inner sphere was rotating while the outer sphere was kept stationary. The magnetic field was imposed on the fluid, using a bar magnet which was inserted in the inner sphere. In the laminar flow region the torque increase when the magnetic field is applied and the critical Reynolds number is increased. However, in the transition regime, the effect of the magnetic field on the torque characteristics decrease as Reynolds number increases. The value of torque were the same as those of glycerine solution beyond the cirtical Reynolds number. We also made experimental equation which could obtain coefficient of torque within critical Reynolds number in terms of sphere spacing Reynolds number and magnetic properties of ferrofluid.