摘要
针对磁场环境中轴向运动导电薄板的磁弹性振动问题进行研究。在给出薄板运动的动能、应变能以及电磁力虚功表达式的基础上,应用哈密顿变分原理,推得磁场中轴向运动矩形薄板的磁弹性振动方程。基于麦克斯威尔电磁场方程并考虑相应的电磁关系式,得到薄板所受电磁力的表达式。针对横向磁场中矩形板的自由振动问题,通过位移函数的设定并应用伽辽金积分法,得到三种边界约束条件下轴向运动薄板的磁弹性振动微分方程。通过数值算例,给出了不同边界条件下矩形板的磁弹性振动特性曲线图,分析了轴向运动速度和磁感应强度等参量对薄板固有振动频率的影响,讨论了临界速度的变化规律。
Abstract
The problem of magneto-elastic vibration of an axially moving current-conducting thin plate in magnetic field was investigated. Based on the expressions of kinetic energy, strain energy and virtual work done by electromagnetic forces, the magneto-elastic vibration equations of an axially moving rectangular thin plate in magnetic field were deduced by using Hamilton principle. Based on the Maxwell equations, and the corresponding electromagnetic constitutive relations, electromagnetic forces expressions of thin plate were derived. In terms of rectangular thin plate in transverse magnetic field, based on displacement mode hypothesis, by using of Galerkin method, the corresponding magneto-elastic vibration differential equations of axially moving thin plate under three different boundary conditions were obtained. By the numerical examples, magneto-elastic vibration characteristic curves of rectangular thin plate under different boundary conditions were obtained. The influence of axially moving velocity, magnetic induction intensity parameters on natural frequency were analyzed, variation of critical velocity was also discussed.
关键词
磁弹性 /
矩形板 /
轴向运动 /
固有频率 /
哈密顿原理
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Key words
magneto-elastic /
rectangular plate /
axially moving /
natural frequency /
Hamilton principle
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胡宇达;孙建涛;杜国君.
轴向运动导电薄板的磁弹性振动[J]. 振动与冲击, 2013, 32(13): 34-38
Hu Yuda;Sun Jiantao;Du Guojun.
Magneto-elastic vibration of axially movingcurrent-conducting thin plate[J]. Journal of Vibration and Shock, 2013, 32(13): 34-38
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脚注
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