轴向绕组磁流变液阻尼器的磁场特性分析
|
摘要
运用ANSYS有限元分析软件,针对轴向绕组结构的磁流变液阻尼器,建立电磁场有限元计算模型,分析阻尼间隙通道的磁场特性,并建立径向线圈磁路结构的电磁场有限元模型,分析径向结构的阻尼间隙通道的磁场分布特性,对比有限元理论分析得出轴向绕组结构能在阻尼间隙通道产生近似平行平板磁场特性的均匀磁场。然后对轴向绕组结构在阻尼间隙通道产生的磁场进行测试,试验得出轴向绕组结构的阻尼器间隙通道磁场特性优良,更有利于磁流变效应;试验结果与理论分析基本一致,有限元分析方法为轴向绕组阻尼器的理论研究提供了方法参考。
To establish the magnetic field finite element calculation model by using ANSYS and referring to the magneto-rheological fluid damper with axial-winding structure to analyze the magnetic field characteristics of the damper clearance, and establish the magnetic field finite element model with radial-coil magnetic circuit structure to analyze magnetic field distributing characteristics of damping clearance channel with radial coil structure. Comparing with the finite element theory analysis, it is obtained that axial-winding structure can generate an uniform magnetic field similar to the characteristics of the parallel plate magnetic field in the damping clearance channel. Then, the magnetic field generated by the axial winding structure in the damping clearance channel was tested, it has shown that the magnetic field characteristics of the damping clearance channel in axial winding structure is excellent and much more helpful to the magneto-rheological effect, the test result is basically same with the theoretical analysis. Therefore, the finite element analysis method can provide the theoretical research of the axial winding damper with method consultation.
To establish the magnetic field finite element calculation model by using ANSYS and referring to the magneto-rheological fluid damper with axial-winding structure to analyze the magnetic field characteristics of the damper clearance, and establish the magnetic field finite element model with radial-coil magnetic circuit structure to analyze magnetic field distributing characteristics of damping clearance channel with radial coil structure. Comparing with the finite element theory analysis, it is obtained that axial-winding structure can generate an uniform magnetic field similar to the characteristics of the parallel plate magnetic field in the damping clearance channel. Then, the magnetic field generated by the axial winding structure in the damping clearance channel was tested, it has shown that the magnetic field characteristics of the damping clearance channel in axial winding structure is excellent and much more helpful to the magneto-rheological effect, the test result is basically same with the theoretical analysis. Therefore, the finite element analysis method can provide the theoretical research of the axial winding damper with method consultation.
引文
[1]周云,谭平.磁流变阻尼控制理论与技术[M].北京:科学出版社,2007.
[2]欧进萍,关新春.磁流变耗能器及其性能[J].地震工程与工程振动,1998,18(3):75-82.
[3]关新春,李金海,欧进萍.足尺磁流变液耗能器的性能与试验研究[J].工程力学,2005,22(6):207-211.
[4]杨超君,陈澜.轴向绕组磁路结构磁流变液阻尼器设计[J].机械设计与制造,2010(3):29-31.
[5]杨超君,陈澜.剪切阀式磁流变液阻尼减振器:中国,200910024718.3[P].2009-07-15.
[6]Yang G.Large-scale magnetorheological fluid damper for vibration mitigation:modeling,testing and control[D].In-diana:University of Notre Dame,2001.
[2]欧进萍,关新春.磁流变耗能器及其性能[J].地震工程与工程振动,1998,18(3):75-82.
[3]关新春,李金海,欧进萍.足尺磁流变液耗能器的性能与试验研究[J].工程力学,2005,22(6):207-211.
[4]杨超君,陈澜.轴向绕组磁路结构磁流变液阻尼器设计[J].机械设计与制造,2010(3):29-31.
[5]杨超君,陈澜.剪切阀式磁流变液阻尼减振器:中国,200910024718.3[P].2009-07-15.
[6]Yang G.Large-scale magnetorheological fluid damper for vibration mitigation:modeling,testing and control[D].In-diana:University of Notre Dame,2001.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心