THE EXCITED LOADS OF ATTRACTION IN A SYMMETRICAL INDUCTOR SYSTEM FOR THE MAGNETIC PULSE REMOVING OF THE BODY CAR
DOI:
https://doi.org/10.20998/2074-272X.2015.2.12Keywords:
magnetic pulse straightening, excited loads, magnetic attractionAbstract
Recently, repair and recovery of vehicle body operations become more and more popular. A special place here is taken by equipment that provides performance of given repair operations. The most interesting are methods for recovery of car body panels that allow the straightening without disassembling of car body panels and damaging of existing protective coating. Now, there are several technologies for repair and recovery of car body panels without their disassembly and dismantling. The most perspective is magnetic-pulse technology of external noncontact straightening. Results. The calculation of excited loads attractions in a symmetrical inductor system in the universal tool of magnetic-pulse straightening is provided. According to the obtained analytical dependence of the numerical evaluation of volumetric construction diagrams, phase and amplitude of the radial dependence of the spatial distribution of the excited efforts of attraction is obtained. The influence of the magnetic properties of the blank screen and manifested in the appearance of powerful magnetic attraction forces is determined. Originality. A new trend of research of magnetic-pulse working of thin-walled metals has been formulated and received further development, which allows to create not only new equipment, but principally new technological processes of external non-contact repair and recovery of vehicle body panels. Scientific basis of electrodynamic and magnetic attraction of thin-walled sheet metals with using the energy of high-power pulsed fields was created for the first time and proved theoretically and experimentally. Scientific and technical solutions in design of effective tools based on single-turn inductor systems of cylindrical geometry for straightening and recovery of car body panels were formulated and proved theoretically, as well as experimentally. Practical value. Using the results of the calculations we can create effective tools for an external magnetic pulse straightening of car body panels.References
Gnatov A.V. Nauchnyye osnovy vosstanovleniya kuzovnykh paneley avtomobiley metodami vneshney beskontaktnoy rikhtovki. Diss. dokt. techn. nauk [Scientific bases of restoration of body panels of cars methods external contactless straightening. Doc. tech. sci. diss.]. Kharkov, 2014. 391 p. (Rus).
Batygin Yu.V., Gnatov A.V., Trunova I.S. Magnetic-pulse technology for restoration of case elements of vehicles. Part 2. Equipment for practical realization of external contactless
magnetic-pulse straightening. Naukoviyj vіsnik Khersons’koj derzhavnoj mors’koj akademіi – Scientific Bulletin of Kherson State Maritime Academy, 2013, no.2(9), pp. 68-82. (Rus).
Sinel'nikov A.F., Shtol' Yu.L., Skripnikov S.A. Kuzova legkovykh avtomobiley: obsluzhivaniye i remont [Body cars: repair and service]. Moscow, Transport Publ., 1995. 256 p. (Rus).
Gnatov A.V. Analiz elektrodinamicheskikh protsessov v tsilindricheskikh induktornykh sistemakh – instrumentakh magnitno-impul'snoy rikhtovki: monografíya [Analysis of electrodynamic processes in cylindrical induction system – tools magnetic pulse straightening]. Kharkov, KHNADU Publ., 2013. 292 p. (Rus).
Batygin Yuri V., Sergey F. Golovashchenko, Andrey V. Gnatov. Pulsed electromagnetic attraction of nonmagnetic sheet metals. Journal of Materials Processing Technology, 2014, Vol. 214, Issue 2, pp. 390-401. doi: 10.1016/j.jmatprotec.2013.09.018.
Batygin Yu.V., Gnatov A.V., Argun Sh.V., Yeryomina E.F. Electromagnetic processes in symmetric induction systems with identical ferromagnetic thin-walled screen and sheet blank. Elektrotekhnika i elektromekhanika – Electrical engineering & electromechanics, 2012, no.4, pp. 50-53. (Rus).
Batygin Yu.V., Gnatov A.V., Chaplygin E.A., Argun Sh.V., Gopko A.V., Drobinin O.M. Sposib magnitno-impul'snogo prityagannya metalevikh ob'ektiv odnovitkovoyu induktornoyu sistemoyu z tonkim ekranom [Method magnetic pulse attraction metal objects single-turn inductor system with a thin screen]. Patent UA, no.70055, 2011. (Ukr).
Electromagnetic Dent Removal: onsite repairs in minutes. Available at: http://www.boeing.com/assets/pdf/commercial/ aviationservices/brochures/34241_ElectDentRemoval04-05.pdf (accessed 11 September 2014).
Electromagnetic Dent Removal. Available at: http://www.electroimpact.com/EMAGDR/overview.asp (accessed 25 May 2014).
Need an electromagnetic dent remover on hand. Fluxtronic offers the best: the Portable Flux 3 dent remover. Available at: http://www.fluxtronic.com/product.php (accessed 07 August 2014).
Welcome to BETAG Innovation. Available at: http://www.betaginnovation.com (accessed 16 June 2014).
Laboratoriia elektromagnitnykh tekhnologii (Laboratory of Electromagnetic Technology) Available at: http://electromagnetic.comoj.com (accessed 10 July 2014).
Gnatov A.V., Batygin Yu.V., Chaplygin E.A. Impul'snye magnitnye polya dlya progressivnyh tehnologij. Magnitno-impul'snye tehnologii beskontaktnoj rihtovki kuzovnyh elementov avtomobilya: monografіya [Pulsed magnetic fields for advanced technologies. Magnetic pulse contactless technology straightening car body elements. Monograph]. Saarbryukken, LAP LAMBERT Academic Publ., 2012. 242 p. (Rus).
Batygin Yu.V., Gnatov A.V., Shinderuk S.A. Calculation of electrodynamic processes in the induction system with nonmagnetic metals. Vestnik BGTU im. V.G. Shukhova – Bulletin of BSTU named after V.G. Shukhov, 2014, no.3, pp. 169-174. (Rus).
Landau L.D., Lifshits Ye.M. Elektrodinamika sploshnykh sred [Electrodynamics of continuous media]. Moscow, Nauka Publ., 1982. 615 p. (Rus).
Matthews J., Walker R. Matematicheskie metody fiziki [Mathematical methods of physics]. Moscow, Atomizdat Publ., 1972, 399 p. (Rus).
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