Calculation of magnetic force and torque between two arbitrarily oriented circular filaments using Kalantarov-Zeitlin’s method

@article{Poletkin2022CalculationOM,
  title={Calculation of magnetic force and torque between two arbitrarily oriented circular filaments using Kalantarov-Zeitlin’s method},
  author={Kirill V. Poletkin},
  journal={International Journal of Mechanical Sciences},
  year={2022}
}
  • K. Poletkin
  • Published 17 June 2021
  • Engineering
  • International Journal of Mechanical Sciences

Figures and Tables from this paper

Calculation of Mutual Inductance between Circular and Arbitrarily Shaped Filaments via Segmentation Method

—In this article, two analytical formulas for the calcu- lation of mutual inductance between a circular filament and line segment arbitrarily positioning in the space are derived by using Mutual

References

SHOWING 1-10 OF 50 REFERENCES

Mutual Inductance Calculation Between Circular Filaments Arbitrarily Positioned in Space: Alternative to Grover's Formula

In this paper, we present the full derivation of a new formula for calculating the mutual inductance between inclined circular filaments arbitrarily positioned with respect to each other. Although

Magnetic Force Between Inclined Circular Filaments Placed in Any Desired Position

This paper presents new general formulas for calculating the magnetic force between inclined circular filaments placed in any desired position. We use two approaches to calculate the magnetic force,

New Formulas for Calculating Torque Between Filamentary Circular Coil and Thin Wall Solenoid with Inclined Axis Whose Axes Are at the Same Plane

In this paper we present a novel approach for calculating the torque between two filamentary circular coils with inclined axes whose centers are at the same plane. In this approach we use Grover’s

Magnetic Force Calculation Between Circular Coils of Rectangular Cross Section with Parallel Axes for Superconducting Magnet

The electromagnetic force between two misaligned coils (coils with parallel axes) with uniform current density distribution and rectangular cross section based on the derived semi-analytical

A New Methodology for Magnetic Force Calculations Between Planar Spiral Coils

Due to the special structure of current carrying planar spiral coils, precise calculation of the forces between them is complicated and time-consuming. To overcome these problems, in this paper a new

Torque calculation between circular coils with inclined axes in air

In this paper we derive new semi‐analytical expressions for calculating the electromagnetic torque between inclined circular coils in air. The torque calculation has been obtained from the

The Calculation of the Mutual Inductance of Circular Filaments in Any Desired Positions

The calculation of the mutual inductance of circular coils whose cross-sectional dimensions are small, compared with their distance apart, depends upon basic formulas for the calculation of the

Calculation of the force characteristics of a multi-coil suspension of a superconducting sphere

The theory presented in the accompanying paper [Ref. 1: Zh. Tekh. Fiz. 67(1), 3 (1997); Tech. Phys. 42, 1 (1997)] for the calculation of the magnetic field and the force characteristics of an

Theory for the calculation of the force characteristics of an electromagnetic suspension of a superconducting body

A theory based on the method of secondary sources is developed for the calculation of the magnetic field and the force characteristics of electromagnetic suspension. This method leads to a system of

Force and Stiffness of Passive Magnetic Bearings Using Permanent Magnets. Part 1: Axial Magnetization

This paper deals with the calculation of the force and the stiffness between two ring permanent magnets whose polarization is axial. Such a configuration corresponds to a passive magnetic bearing.