共查询到16条相似文献,搜索用时 125 毫秒
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悬臂铁磁板磁弹性耦合作用的力学分析 总被引:2,自引:4,他引:2
对有限板宽的悬臂铁磁板在外磁场中的磁弹性相互耦合作用的力学行为,建立了描述板弯曲和稳定性的理论模型及有限元定量分析程序,研究了外磁场倾斜角对板磁弹性失稳的临界磁场值的影响。 相似文献
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从铁磁板的磁弹性广义变分原理出发,通过对铁磁板内外的磁场和板变形
场的摄动技术以及采用经典Koiter理论,对横向磁场中铁磁悬臂、简支、固支梁式薄
板磁弹性稳定性的初始后屈曲行为及缺陷敏感性进行了定性研究. 解析地给出了悬臂板对初
始缺陷敏感,简支和固支板对初始缺陷不敏感等结果,对悬臂梁式板理论预测的临界磁场值
往往大于实验观测结果的现象从定性上给予了合理解释. 相似文献
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着重评述了近20年来有关铁磁材料弹性薄板处在均匀横向外加磁场中发生屈曲这一新的磁-力耦合问题的理论与实验研究进展,在此基础上,介绍了笔者近年来围绕这一问题所开展的工作以及尚需进一步研究的几个问题。 相似文献
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磁弹性簿板屈曲的研究进展和存在的若干问题 总被引:6,自引:1,他引:6
着重评述了近20年来有关铁磁材料弹性薄板处在均匀横向外加磁场中发生屈曲这一新的磁-力耦合问题的理论与实验研究进展,在此基础上,介绍了笔者近年来围绕这一问题所开展的工作以及尚需进一步研究的几个问题。 相似文献
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软铁磁薄板磁弹性耦合作用的变分原理 总被引:1,自引:2,他引:1
研究磁弹性耦合问题的关键是正确计算作用在铁磁弹性体上的磁力,该文以磁场系统的磁能与磁介质弹性板应变能之和作为软铁磁薄板位于外加磁场合作用系统的能量泛函,以磁标势函数和位移函数的变分为独立变量,给出软铁磁薄板在任意外磁场中磁弹性耦俣作用变分原理,由此不仅导出磁和结构变形的联立控制方程,而且获得作用在薄板上的磁力表达式,进而可以对两类不同性质的铁磁板耦合作用的实验现象进行理论模拟 相似文献
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轴向运动导电薄板磁弹性耦合动力学理论模型 总被引:1,自引:0,他引:1
针对磁场环境中轴向运动导电薄板的动力学理论建模问题进行研究,得到较为完备的磁弹性耦合振动基本方程及相应的补充关系式。在考虑几何非线性效应下,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,推得磁场中轴向运动薄板的非线性磁弹性耦合振动方程,并得到力和位移满足的边界条件。基于麦克斯威尔电磁场方程,并考虑相应的电磁本构关系和电磁边界条件,推得任意磁场环境中轴向运动导电薄板满足的电动力学方程和所受电磁力表达式。分别针对纵向磁场环境、横向磁场环境、条形板等具体情形,给出了振动方程、电动力学方程和电磁力的简化形式。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。 相似文献
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研究在外激励力与磁场作用下轴向运动铁磁梁的磁弹性非线性主共振问题.基于弹性理论和电磁理论,给出梁的动能和弹性势能表达式,根据哈密顿原理,推导出磁场中轴向运动铁磁梁的磁弹性双向耦合非线性振动方程.通过伽辽金积分法进行离散,得出两端简支边界条件下铁磁梁磁弹性非线性强迫振动方程.应用多尺度法对方程进行求解,得出幅频响应方程.最后通过算例,给出铁磁梁的幅频特性曲线、振幅-磁感应强度和振幅-外激励力曲线并进行分析.结果显示,在幅频响应曲线中铁磁梁的轴向运动速度、外激励力、轴向拉力越大,共振振幅越大;而磁感应强度越大,振幅越小. 相似文献
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铁磁导电梁式板在横向均匀磁场中的动力特性分析 总被引:2,自引:0,他引:2
对横向磁场中自由振动的导电铁磁梁式板,给出了考虑其磁化和涡电流与力学效应耦合影响的定解问题的基本方程.在对不同支承情况下板的振动频率和临界磁场值进行定量分析的基础上,讨论了电导率、磁化率和板厚等参数以及支承条件对板结构的振动频率与磁弹性临界磁场的影响. 相似文献
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As an essential model of magnetoelastic interaction between magnetic field and mechanical deformation, the study on magnetoelastic
buckling phenomenon of soft ferromagnetic plates in a magnetic environment has been conducted. One of the key steps for the
theoretical prediction of the critical magnetic field is how to formulate magnetic force exerted on the magnetized medium.
Till today, the theoretical predictions, from theoretical models in publications, of the magnetoelastic buckling of ferromagnetic
cantilevered beam-plate in transverse magnetic field are all higher than their experimental data. Sometimes, the discrepancy
between them is as high as 100%. In this paper, the macroscope formulation of the magnetic forces is strictly obtained from
the microscope Amperion current model. After that, a new theoretical model is established to describe the magnetoelastic buckling
phenomenon of ferromagnetic thin plates with geometrically nonlinear deformation in a nonuniform transverse magnetic field.
The numerical method for quantitative analysis is employed by combining the finite elemental method for magnetic fields and
the finite difference method for deformation of plates. The numerical results obtained from this new theoretical model show
that the theoretical predictions of critical values of the buckling magnetic field for the ferromagnetic cantilevered beam-plate
are in excellent agreement with their experimental data. By the way, the region of applicability to the Moon-Pao's model,
or the couple model, is checked by quantitative results.
This project was supported in part by the National Natural Science Foundation of China and the Foundation of the SEdC of China
for Returned Chinese Scholars from Abroad. 相似文献
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M. O. Peach N. S. Christopherson J. M. Dalrymple G. L. Viegelahn 《Experimental Mechanics》1988,28(1):65-69
This paper does not stand alone; it is directly related to N.S. Christopherson's experimental study1,2 of the magnetoelastic bending of thin steel plates, presented at a recent SEM meeting. It is, in fact, an extension of that study and relies upon some of Christopherson's data.In 1968, Moon and Pao presented a theory of the magnetoelastic buckling of a beam plate in a uniform magnetic field which differed from experimental results by a factor of two. Attempts to explain the discrepancy still leave approximately 25-percent error in the theoretical results as compared with experiment.We show that the assumption made by Moon and Pao—that a plate element experiences a force system consisting only of a couple, whose magnitude is proportional to the rotation of the element—is invalid for finite plates. An experiment is suggested for determining whether the assumption is valid for infinite plates. The present state of knowledge concerning magnetoelastic buckling is briefly summarized. Several types of magnetoelastic buckling are identified and briefly contrasted. Attention is directed to the importance of field discontinuities in problems involving magnetic deformation. Two paradoxical aspects of the Moon-Pao formula for the magnetoelastic buckling of beam plates are pointed out and briefly discussed. 相似文献
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带铁磁薄膜悬臂板的磁场微感应器磁弹性特征研究 总被引:3,自引:3,他引:0
对于在可变形非磁材料悬臂梁式板单表面粘贴可磁化材料薄膜所构成的磁场微传感器件结构,研究了其处在磁场环境中的磁弹性弯曲变形的磁场-力学特征。为此,建立了由有限元方法分析磁场与有限差分法计算挠曲变形相结合来计算其结构在磁场中产生磁弹性变形的定量分析程序。在此基础上,对于这一微传感结构的算例给出了其结构变形随外加磁场环境变化的磁场-挠度特征关系等定量结果。结果表明:微传感器件不仅可以测量出磁场的大小,而且给出了测量磁场矢量方向的可能性。 相似文献
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考虑尺寸效应板梁的磁弹性屈曲 总被引:2,自引:0,他引:2
研究表明,有限尺寸效应是影响板——梁磁弹性稳定性分析精度的主要原因。本文用边界元法分析了板边沿的磁感强度集中,然后用里兹法计算了软铁磁材料悬臂板——梁的临界屈曲磁场。通过和Moon-Pao的理论和实验结果以及Miga的有限元结果比较,表明本方法具有良好的精度,且计算方法简便。 相似文献
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The purpose of this paper is to study the magnetomechanical characteristic of a microsensor which is composed of a cantilevered
beam-plate with ferromagnetic films in order to measure the magnetic field from the deformation of plate when the microsensor
is located in the magnetic field. To this end, a numerical approach made up of the finite element method for magnetic field
and the finite difference method for deflection of the microsensor is proposed to perform the numerical analysis of deflection
under magnetoelastic interaction. Some quantitative results of a case study for the magnetoelastic characteristic between
the magnetic field and deflection of the microsensor in the magnetic field are given. The results show that this microsensor
can be used not only to measure the magnitude of magnetic intensity, but also to possibly monitor the direction of the vector
of the magnetic field.
The project supported by the NNSFC(No. 19772014), the China National Foundation for Outstanding Young Researchers(No. 19725207),
and Foundation for University Key Teacher by the Ministry of Education of China. 相似文献
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王省哲 《应用数学和力学(英文版)》2008,29(8):1023-1032
Based on the magnetoelastic generalized variational principle and Hamilton's principle, a dynamic theoretical model characterizing the magnetoelastic interaction of a soft ferromagnetic medium in an applied magnetic field is developed in this paper. From the variational manipulation of magnetic scale potential and elastic displacement, all the fundamental equations for the magnetic field and mechanical deformation, as well as the magnetic body force and magnetic traction for describing magnetoelastic interaction are derived. The theoretical model is applied to a ferromagnetic rod vibrating in an applied magnetic field using a perturbation technique and the Galerkin method. The results show that the magnetic field will change the natural frequencies of the ferromagnetic rod by causing a decrease with the bending motion along the applied magnetic field where the magnetoelastic buckling will take place, and by causing an increase when the bending motion of the rod is perpendicular to the field. The prediction by the mode presented in this paper qualitatively agrees with the natural frequency changes of the ferromagnetic rod observed in the experiment. 相似文献