Ключові файли

1. Podoltsev, O.D. and Kucheriava I.N. (2015), ”Muljtyfyzycheskye processы v oblasty vkljuchenyja polyэtylenovoj yzoljacyy sylovogho kabelja” [Multiphysical processes in the field of inclusion of polyethylene insulation of a power cable], / Tekhnichna Elektrodynamika, Iss. 3, PP. 3–9 (In Russian).
2. Sukach S., Riznik D., Zachepa N., Chenchevoy V. (2020), Normalization of the Magnetic Fields of Electrical Equipment in Case of Unauthorized Influence on Critical Information Infrastructure Facilities. Soft Target Protection, NATO Science for Peace and Security Series C: Environmental Security, Theoretical Basis and Practical Measures, PР. 337–349.
3. Levchenko L.O., Sukach S.V, Konovalova O.V. (2014), ”Modeljuvannja prostorovykh rozpodiliv maghnitnykh poliv elektrychnykh mashyn dlja vyznachennja zon bezpechnogho perebuvannja personalu” [Modeling of spatial distributions magnetic fields electric machines to determine areas of safe stay of personnel], / Transactions of Kremenchuk Mykhailo Ostrohradskyi National University, Iss.  6 (89), Part. 1. PP. 27–31 (In Ukrainian).
4. Primin M. A., Nedaivoda I.V. (2015), ”Alghorytm anatomycheskogho reshenyja obratnoj zadachy maghnytostatyky dlja ystochnyka polja dypoljnogho typa” [Algorithm for the anatomical solution of the inverse problem  magnetostatics for a dipole-type field source], / Computing tools, networks and systems, Iss.14, PP. 5−15 (In Russian).
5. Khodakovsyi O., Levchenko L., Kolumbet V., Kozachuk A. (2021), ”Rozrakhunkovyj aparat modeljuvannja poshyrennja elektromaghnitnykh poliv riznoridnykh dzherel” [Computational apparatus for modeling the propagation of electromagnetic fields dissimilar sources], / Advanced information systems, Vol. 5, Iss. 1, PP. 34–38. DOI:https://doi.org/10.20998/2522-9052.2021.1.04 (In Ukrainian).
6. Volokhov S. A., Dobrodeev P.N. (2006), ”Закономерности распределения внешнего магнитного поля электрооборудований”, / [Patterns of distribution of the external magnetic field of electrical equipment], / Electrical Engineering, Iss. 4, PP. 28–33 (In Russian).
7. Getman A., V., (2011), ”O normyrovanyy urovnja maghnytnogho polja s pomoshhjju muljtypoljnykh maghnytnykh momentov [On normalization of the magnetic field level using multipole magnetic], / Eastern European Journal of Advanced Technology, Vol. 4, No 5., PP. 7–10 (In Russian).
8. Getman, A. (2018), ”Cylindrychnyj gharmonichnyj analiz maghnitnogho polja v aperturi nadprovidnoji obmotky elektromaghnita”, / [Development of a method for reducing the structure of the magnetic field in the aperture of a quadrupole electromagnet with an overwire winding], Eastern-European Journal of Enterprise Technologies, 1(5 (91), 4–9. (In Ukrainian).
9. Getman, A. (2018), ”Rozrobka sposobu pokrashhennja struktury maghnitnogho polja v aperturi kvadrupoljnogho elektromaghnitu z nadprovidnoju obmotkoju”, [Development of a method for improving the structure of the magnetic field in the aperture of a quadrupole electromagnet with a superconducting winding], / Eastern-European Journal of Enterprise Technologies, 5(5 (95), 6–12. (In Ukrainian).