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轴向运动载流导电板磁热弹性耦合动力学方程

MAGNETO-THERMO-ELASTIC COUPLED DYNAMICS EQUATIONS OF AXIALLY MOVING CARRY CURRENT PLATE IN MAGNETIC FIELD

  • 摘要: 针对磁场环境中轴向运动载电流导电板磁热弹性耦合动力学建模问题进行研究. 考虑几何非线性和热效应条件下, 给出薄板运动的动能、应变能以及外力虚功的表达式.应用哈密顿变分原 理, 推得力、运动、电、磁和热效应相互作用下轴向运动导电板的非线性磁热弹性耦合振动方程.基于麦克斯韦电磁场方程, 考虑相应的电磁本构关系和电磁边界条件, 推得磁场环境中轴向运动载电流导电板满足的电动力学方程和所受电磁力表达式, 并给出焦耳热作用下耦合形式的热传导方程. 算例表明, 磁场等参量对动力学系统分岔特性有明显影响.所得结果可为此类问题的进一步求解和分 析提供理论参考.

     

    Abstract: The theory of In this study, magneto-thermo-elastic coupled dynamics modeling for axially moving carry current plate in magnetic field is investigated. Considering geometric nonlinearity and thermal effect, the expressions of kinetic energy, strain energy and virtual work done by external force were derived. The nonlinear force-electro-magneto- thermo-elastic coupled vibration equations of an axially moving current-conducting thin plate were deduced for the first time in this paper by using Hamilton principle. Based on the Maxwell equations, considering the corresponding electromagnetic constitutive relations and electromagnetic boundary conditions, the electrodynamics equations and electromagnetic forces expressions of axially moving carry current thin plate in general magnetic field were derived and thermal conduction equation caused by Joule heat was also presented. Numerical example shows that magnetic field carries significant effect on the bifurcation characteristics. These results are expected to be a theoretical reference for further analysis of this case.

     

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