ИССЛЕДОВАНИЕ МАГНИТНОГО ПОЛЯ ТРЕХМЕРНЫХ ФЕРРОМАГНИТНЫХ ОБЪЕКТОВ

M.M. Rezinkina; L.E. Lobzhanidze

No. 1 (2011), Theoretical Electrical Engineering and Electrophysics

No. 1 (2011)

Theoretical Electrical Engineering and Electrophysics

ANALYSIS OF MAGNETIC FIELD OF THREE-DIMENSIONAL FERROUS OBJECTS

Published 2010-12-23

M.M. Rezinkina⁺⁻
L.E. Lobzhanidze⁺⁻

M.M. Rezinkina

Science and Technology Center of Magnetism of Technical Objects of NAS of Ukraine, 19 Industrialna st., Kharkiv, 61106, Ukraine

L.E. Lobzhanidze

Science and Technology Center of Magnetism of Technical Objects of NAS of Ukraine, 19 Industrialna st., Kharkiv, 61106, Ukraine

ARTICLE_3_PDF (Українська)

Keywords

magnetic field
ferromagnetic object
method of final volume
absorbing boundary conditions магнитное пoле
ферромагнитный объект
метод конечных объемов
поглощающие граничные условия

How to Cite

[1]

Резинкина, М. and Лобжанидзе, Л. 2010. ANALYSIS OF MAGNETIC FIELD OF THREE-DIMENSIONAL FERROUS OBJECTS. Tekhnichna Elektrodynamika. 1 (Dec. 2010), 019.

Abstract

Methodology of numerical calculations of magnetic field and magnetic moment of ferromagnetic objects with complicated space form has been described with the help of the method of final volume and absorbing boundary conditions. Calculations of magnetic field and magnetic moment in the row of ferromagnetic objects have been performed with developed methodology. Dependence of magnetic moments of ferromagnetic constructions on their geometric shape has been analysed. References 21, figures 5.

ARTICLE_3_PDF (Українська)

References

Krasnov I.P. Calculation methods for ship magnetism and electrical engineering. – Leningrad: Sudostroenie, 1986. – 216 p. (Rus.)

Liubimov V.V. Artificial and natural electromagnetic fields in human environment and devices for its detection and fixation / Preprint / IZMIRAN; No 11 (1127). – Troitsk: 1999. – 28 p. (Rus.)

Nakhilnitskaia Z.N., Mastriukova V.M, Andrianova L.A., Borodkina A.T. Reaction of organism to zero magnetic field exposure // Kosmicheskaia biologiia i meditsina. – 1978. – No 2. – P. 74–76. (Rus.)

Nesterenko A.D. Introduction to Theoretical Electrical Engineering. – Kiev: Naukova dumka, 1969. – 345 p. (Rus).

Patankar S. Numerical methods for solving heat transfer and fluid flow problems. – Moskva: Energoatomizdat, 1984. – 150 p. (Rus.)

Pokhodzei L.V. Hypogeomagnetic conditions as a risk factor for human health // Trudy II Mezhdunar. konf. "Electromagnitnye polia i zdorovie cheloveka". – Moskva: 1999. – P. 135–136. (Rus.)

Rezinkina M.M. Growth of dendrite branches in polyethylene insulation under a high voltage versus the branch conductivity // Zhurnal Tekhnicheskoi Fisiki. – 2005. – Vol.75. – No 6. – P. 85–92. (Rus.)

Rezinkina M.M. Numerical calculation of the magnetic field and magnetic moment of ferromagnetic bodies with a complex spatial configuration // Zhurnal Tekhnicheskoi Fisiki. – 2009. – Vol.79. –No 8. – P. 8–17. (Rus).

Tamm I.E. Fundamentals of electricity. – Moskva: Nauka, 1989. – 504 p. (Rus.)

Physical factors of the production environment Sanitary-epidemiological rules and norms. – SanPiN 2.2.4.1191-03 "Electromagnetic fields in production environment". – M.: 2003. – 19 p. (Rus.)

Shcherba A.A., Rezinkina M.M. Modelling and analysis of electrical fields of power objects. – Kyiv: Naukova dumka, 2008. – 248 p. (Rus.)

Shcherba A.A., Rezinkina M.M. Electromagnetic fields and their influence on the objects. – Kyiv: Naukova dumka, 2009. – 191 p. (Rus.)

Yanovskii B.M. Terrestrial magnetism. Moskva–Leningrad: Glavsevmorputi, 1941. – 283 p. (Rus.)

Conley C.C. A review of the biological effects of very low magnetic fields // Report NASA TN D-5902.

– National Aeronautics and Space Administration, Washington, D. C. 20546. – 1970. – 25 p.

Paluszek M., Thomas S., Mueller J., Bhatta P. Spacecraft attitude and orbit control. – Princeton: Princeton Satellite Systems, 2007. – 476 p.

Salinas E., Rezinkina M., Atalaya J. Some 2D–3D aspects of shielding of longitudinal sources of extremely low frequency magnetic fields // Environmentalist. – 2009. – Vol. 29. – No 2. – P. 141–146.

Salinas E., Rezinkina M. Choice of parameters for passive shielding of power-frequency magnetic fields // Environmentalist. – 2009. – Vol. 29. – No 2. – P. 135–140.

Taflove A., Hagness S. Computational electrodynamics: the finite difference time domain method. – Boston-London: Artech House, 2000. – 852 p.

Xuebin W., Bing L.I., Muling X.U. et al. Long-term memory was impaired in one-trial passive avoidance

task of day-old chicks hatching from hypomagnetic field space // China Sci. Bull. – 2003. – Vol. 48. – P. 2454–2457.

Zhang B., Lu H., Xi W. et al. Exposure to hypomagnetic field space for multiple generations causes amnesia in Drosophila melanogaster // Neuroscience Letters. – 2004. – Vol. 371. – No 2–3. – P. 190–195.

Zhang X., Li J-F., Wu Q-J., Li B., Jiang J-C. Effects of hypomagnetic field in noradrenergic activities in the brainstem of golden hamster // Bioelectromagnetics. – 2007. – Vol. 28. – P. 155–158.