Analysis of Magnetic Forces in the Working Clearance with Magnetic-Abrasive Treatment of Inductors on Standing Magnets
A.M. Ikonnikov, S.L. Leonov, D.E. Solomin, A.A. Kulakov
download PDFAbstract. The authors describe the method of calculating the magnetic forces in the working gap in the case of magnetically abrasive machining of flat surfaces of billets from magnetic materials by the periphery of a circular inductor on permanent magnets. The application of the software package ANSIS Maxwell for the calculation of the magnetic induction method in the working gap and the magnetic forces of the magnetically abrasive powder acting on the grain is shown. As a result of the work, the magnetic induction in the working gap was calculated for magnetically abrasive machining of flat surfaces of billets from magnetic materials by an inducer on permanent magnets. Also, calculations showed the distribution of the magnetic abrasive powder in the working gap, depending on the material of the workpiece being processed. In the case of magnetically abrasive machining of a magnetic workpiece, the powder in the working gap is concentrated in the zones with the greatest density of force lines – under the inductor poles. An analysis is made of the distribution of magnetic forces in the working gap during magnetic abrasive machining.
Keywords
Magnetic Abrasive Treatment, Working Gap, Magnetic Abrasive Powder, Magnetic Force
Published online 1/5/2022, 7 pages
Copyright © 2022 by the author(s)
Published under license by Materials Research Forum LLC., Millersville PA, USA
Citation: A.M. Ikonnikov, S.L. Leonov, D.E. Solomin, A.A. Kulakov, Analysis of Magnetic Forces in the Working Clearance with Magnetic-Abrasive Treatment of Inductors on Standing Magnets, Materials Research Proceedings, Vol. 21, pp 176-182, 2022
DOI: https://doi.org/10.21741/9781644901755-31
The article was published as article 31 of the book Modern Trends in Manufacturing Technologies and Equipment
Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
References
[1] Baron, Yu. M. Magnetic-abrasive and magnetic processing of articles and cutting tools / Yu. M. Baron. – L.: Mechanical Engineering, 1986. – 176 p.
[2] Sakulevich, F.Yu. Fundamentals of magnetic abrasive processing / F. Yu. Sakulevich. – Minsk: Science and Technology, 1981. – 328 p.
[3] Prihodko, SP Simulation of the process of magnetically abrasive machining of machine parts on computers / SP Prikhod’ko // Finishing-finishing machining methods and tools in machine-building technology. – Barnaul, 1987. – P. 115-119.
[4] Kulavik, AA Calculation of the magnetic forces acting on the grains of a ferromagnetic powder in the process of magnetically abrasive processing / AA Kulavik, SL Leonov, AM Ikonnikov, RV Gre – benkov // Collected Works of the III All-Russian Youth Scientific and Practical School November 29- 30, 2017 “Strengthening Technologies and Functional Coatings in Mechanical Engineering”, KuzGTU, Kemerovo, 2017. Access mode: http: // science .kuzstu.ru / wp-content / Events / School / utec / 2017 / school / pages / Articles / 108.pdf
[5] Prikhod’ko, SP Magnetic-abrasive polishing by inducers on permanent magnets / SP Prikhod’ko, Yu. M. Baron // Avtotorktornoeelektrooborudovanie. – 1983. – No. 5. – P. 11-14.
[6] Oliker, VE Powders for magnetically abrasive treatment of wear-resistant coatings / V.E. Oliker. – Moscow: Metallurgy, 1990. – 175 p.
[7] Leonov, SL Automatic regulation of the working gap in the case of magnetically abrasive machining of three-dimensional complex surfaces / SL Leonov, AM Ikonnikov, RV Grebenkov // Materials of the 1st International scientific-practical conference “Actual problems in machine-building”, Novosibirsk, 2014. – P. 162-166.
[8] Prikhodko, SP The role of eddy currents in the process of magnetically abrasive processing / SP Prikhod’ko // Finishing-finishing processing methods and tools in engineering technology. – Barnaul, 1989. – P. 104-107.
[9] Krymsky, M.Distribution and consolidation of a magnetic-abrasive powder in the working gap of the machine tool / MD Krymsky // Magnetic abrasive materials and methods for their testing. – Kiev, 1980. – P. 92-97.
[10] Konovalov, Ye. G. Pure machining of parts in a magnetic field by ferromagnetic powders / EG Konovalov, GS Shulev. – Minsk: Science and Technology, 1967. – 125 p.