高冲击载荷作用下平面式电涡流阻尼器特性数值模拟研究

为探究平面式电涡流阻尼器在冲击环境中的应用特点,开展了高冲击载荷作用下平面式电涡流阻尼器响应特性数值模拟研究.基于ANSYS Maxwell电磁学有限元软件建立平面式电涡流阻尼器二维数值仿真模型,分析了永磁体和磁靴结构尺寸、导电层和导磁层厚度以及气隙间距对电磁阻尼力的影响.研究结果表明:平面式电涡流阻尼器能够满足安全制...

Numerical simulation for characteristics of planar eddy current damper under high impact load

Here,to explore application characteristics of planar eddy current damper in impact environment,numerical simulation for response characteristics of planar eddy current damper under high impact load was performed.Based on the electromagnetic finite element software ANSYS Maxwell,a 2-D numerical simulation model of planar eddy current damper was established to analyze effects of structural sizes of permanent magnet and magnetic shoe,thicknesses of conductive layer and magnetic layer as well as air gap spacing on electromagnetic damping force.The study results showed that the planar eddy current damper can satisfy safely braking a certain type to launch high impact load,and damping weakening phenomenon can appear in high-speed stage;when thickness of permanent magnet increases from 10mm to 50mm,magneto-resistive force increases obviously,and permanent magnet’s mass utilization rate can reach the maximum when its thickness is 30mm;the presence or absence of magnetic plate has a larger influence on magneto-resistive force,but magneto-resistive force tends to be saturated after thickness of magnetic plate exceeds 2 mm;when thickness of conductive plate increases from 0 to 0.6 mm,magneto-resistive force increases proportionally,but when thickness of conductive plate increases from 0.8 mm to 2 mm,magnetic damping weakening phenomenon increases obviously in high-speed stage;the study results can provide a support for further application of planar eddy current damper in impact environment.