磁性液体的浮力原理是磁性液体静力学中最具吸引力的效应之一。浸没于磁性液体中的永磁体受到的浮力大于阿基米德浮力,这个差值称之为磁性液体的二阶浮力。磁性液体的二阶浮力的计算由于涉及磁场计算的复杂性而变得困难。数值计算也有太多的假设条件。用实验的方法首先形象地展示了永磁体在磁性液体中的悬浮,而后测定了在不同直径的圆柱容器中、不同尺寸的永磁体浸没于不同饱和磁化强度的磁性液体中所受到的轴向二阶浮力随永磁体与容器壁相对位置的定量变化关系曲线,分析了不同的因素对这种变化关系的影响规律。
The buoyancy principle of magnetic fluid is one of the most attractive effect of magnetic fluid statics. The buoyant force suffered by the permanent magnet immersed in magnetic fluid is greater than Archimedes force, and the difference is called the second-order buoyancy of the magnetic fluid. But it is too difficult to directly calculate the buoyancy due to the complexity of magnetic field. Moreover numerical calculation employs too many assumptions. So in this paper the experimental method is adopted firstly to show the suspension of permanent magnet immersed in magnetic, and then to measure the second-order buoyancy received by permanent magnet immersed in magnetic fluid, which depends on the distance between the magnet and the wall of vessel. The influence of the diameter of cylindrical vessels, the size of magnets and the saturation magnetization of magnetic fluids on the buoyancy is also analyzed qualitatively.
参考文献
| [1] | Khalafalla S E .Magnetic separation of the second kind:magnetogravimetric,magnetohydrostatic,and magneto- hydrodynamic separations[J].IEEE Transactions on Magnetics,1976,12(05):455-462. |
| [2] | Takayasu M;Hwang J Y;Fritz J.Friedlaender;Leon Petrakis Richard Gerber .Magnetic separation utilizing a magnetic susceptibility gradient[J].IEEE Trans- actions on Magnetics,1984,20(01):155-159. |
| [3] | V.Murariu;O.Rotariu;V.Badescu;R.Badescu .Modelling of magnetodensimetric separation in two high gradient magnetic separation axial cells[J].Powder Technology,2001(1):97-102. |
| [4] | 何新智,李德才,孙明礼.磁性液体倾角传感器的实验研究[J].计量学报,2009(05):464-467. |
| [5] | Berkovsky B N;Medvedev V F;Krakov M S.Magnetic fluids engineering applications[M].Oxford:Oxford Uni- versity Press,1993:167-168. |
| [6] | Rosensweig R E.Phenomena and relationships of mag- netic fluid bearings,Thermomechanics of magnetic fluids[M].Washington London:Hemisphere Publishing Corporation,1977:231-253. |
| [7] | Rosensweig R E .Buoyancy and stable levitation of a mag- netic body immersed in a magnetizable fluid[J].Nature,1966,210(5036):613-614. |
| [8] | Rosensweig R E .Fluidmagnetic buoyancy[J].AIAA Journal,1966,4(10):1751-1758. |
| [9] | Rosensweig R E.Ferrohydrodynamics[M].New York:Dover Publications,Inc,1997 |
| [10] | Barkov Y D;Fertman V E .Experimental study of float- ing of magnetic bodies in a magnetizable fluid[J].Mag- nitnaya Gidrodinamika,1978,14(01):23-26. |
| [11] | Kvitantsev A S;Naletova V A;Turkov V A .Levitation of magnets and paramagnetic bodies in vessels filled with magnetic fluid[J].Fluid Dynamics Research,2002,37(03):361-368. |
| [12] | Naletova V A;Kvitantsev A S;Turkov V A .Move- ment of a magnet and a pararnagnetic body inside a ves- sel with a magnetic fluid[J].Journal of Magnetism and Magnetic Materials,2003,258-259:439-442. |
| [13] | 刘桂雄,徐晨,张沛强,吴庭万.永磁体在磁流体中的磁力学建模及自悬浮位置可控性[J].物理学报,2009(03):2005-2010. |
| [14] | Blums E;Cebers A;Maiorov M M.Magnetic fluids[M].New York:Walter de Gruyter,1997:169-176. |
| [15] | 刘桂雄,徐晨,曹东,蒲尧萍.永磁体在磁流体中悬浮平衡动态数值模拟[J].应用基础与工程科学学报,2008(05):679-685. |
| [16] | Liu Guixiong;Pu Yaoping;Xu Chen .Magnetic force analysis of immersed body in magnetic fluids and its magnetic levitation characteristic[J].Journal of Func- tional Materials,2007,38(z3):1234-1237. |
| [17] | Zhang Peiqiang;Xu Chen;Liu Guixiong .Experiment in key influence factor of secondary magnetic buoyancy force based on orthogonal design[J].Journal of Func- tional Materials,2007,38(z3):1238-1241. |
| [18] | 何新智 .磁性液体加速度传感器的理论及实验研究[D].北京:北京交通大学,2011. |
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