论文信息 - Implementation of Virtual Work Principle in Virtual Air Gap

Implementation of Virtual Work Principle in Virtual Air Gap

In this paper, an implementation of virtual work principle in virtual air gap is proposed for the calculation of contact and body forces. To calculate the proper values of the magnetic field at virtual air-gap, we exploit the generalized magnetic source methods. It is shown that appropriately sized virtual elements can be allocated in the virtual air-gap by one-dimensionally extending the virtual gap while keeping the previously calculated field intensity. Both an element's and total forces can be obtained by virtual distortion of the concerned virtual elements. The proposed method provides a good accuracy even when the two contacting objects have the different permeability. As a validation, numerical examples are presented for the force distribution and total force.

[1] J. Coulomb,et al. Finite element implementation of virtual work principle for magnetic or electric force and torque computation , 1984 .

[2] Hermann A. Haus,et al. Electromagnetic Fields And Energy , 1989 .

[3] J. Bastos,et al. Electromagnetic Modeling by Finite Element Methods , 2003 .

[4] Se-Hee Lee,et al. Electromagnetic body force calculation based on virtual air gap , 2006 .

[5] Il Han Park,et al. Concept of virtual air gap and its applications for force calculation , 2006, IEEE Transactions on Magnetics.

[6] Kevin Barraclough,et al. I and i , 2001, BMJ : British Medical Journal.

[7] J. L. Coulomb,et al. A methodology for the determination of global electromechanical quantities from a finite element analysis and its application to the evaluation of magnetic forces, torques and stiffness , 1983 .

[8] Il Han Park,et al. Force Calculation of Magnetized Bodies in Contact Using Kelvin's Formula and Virtual Air-Gap , 2006, IEEE Transactions on Applied Superconductivity.

[9] Shell elements for the computation of magnetic forces , 2001 .