[1. Gorelik V. S., Zlobina A. I. (2008), Spectra of secondary radiation of opal matrices filled with silver nanoparticles obtained by fiber-optic excitation, Inorganic material, 44, 7, 6–9.10.1134/S0020168508010093]Search in Google Scholar
[2. Gorelik V.S. (2008), Excitation by semiconductor LEDs secondary radiation in opals with pores filled with silver nanoparticles, Inorganic material, 44, 1, 1–4.10.1134/S0020168508010093]Search in Google Scholar
[3. Gorelik, V. S., Zlobina A. I., Chanieva R. I. (2008), Spectra of secondary radiation of opal matrices filled with silver nanoparticles obtained by fiber-optic excitation, Inorganic material, 44(7), 6–9.10.1134/S0020168508010093]Search in Google Scholar
[4. Khrushchev M.M., Troitskiy O.A., Stashenko V.I., LevinI.S. (2017), Change in the phase composition of steel under the influence of current pulses and microwave radiation under deformation, Ferrous metallurgy, 7, 82–87.]Search in Google Scholar
[5. Khrushchev M.M., Troitskiy O.A., Stashenko V.I., LevinI.S. (2017), The Effect of current pulses and microwave radiation on the phase composition of steel under deformation, Mechanical engineering and engineering education,1, 50–56.]Search in Google Scholar
[6. Krajewski, A.,Włosiński W., Chmielewski T., Kołodziejczak P. (2012), Ultrasonic-vibration assisted arc-welding of aluminum alloys, Bulletin of the Polish Academy of Technical Sciences, 60 (4), 841–852.10.2478/v10175-012-0098-2]Search in Google Scholar
[7. Samuilov S.D. (2017),Electroplastic compaction (briquetting) of dispersed conductive materials for recycling waste of high-strength alloys, obtaining blanks, semi-finished products, materials and products with a new level of properties, Fundamental and applied problems of engineering and technology,4(324), 83–89.]Search in Google Scholar
[8. Samuilov S.D.,Troitskiy O.A. (2017), New methods of production of porous metal materials with closed and open porosity, Fundamental and applied problems of engineering and technology, 3(323), 12–16.]Search in Google Scholar
[9. Savenko V.S.(2017), The contribution of ponderomotive factors to the realization of electroplastic deformation / V.S. Savenko, O.A. Troitsky, A.G. Silivonets // Izvestiya NAN RB, A series of physical and technical sciences, 1, 85–91.]Search in Google Scholar
[10. Savenko V.S., Silivonets A.G., Gunenko A.V. (2017), Calculation of current density and magnetic field strength inside a conductor under conditions of electroplasticity, Vesnik of the Polotsk State University, Series C. Fundamental sciences,4,72–78.]Search in Google Scholar
[11. Savenko V.S.,Troitskiy O. A., Gunenko A.V. (2018), Physical Aspects of Electroplastic Deformation of Metals, Vesnik of the Brest University, 1, 40–48.]Search in Google Scholar
[12. Skal A.S. (2013), The full Lorentz force formula responsible for turbulence in solids and fluids and explained Faraday's paradox, International Journal of Scientific & Engineering Research, 4(2), 10–14.]Search in Google Scholar
[13. Stashenko V.I. (2008), Electroplastic drawing of medium carbon steel, Problems of mechanical engineering and reliability of machines, 6, 12–14.]Search in Google Scholar
[14. Stashenko V.I., Troitskiy O.A., Novikov N.N. (2008), Electroplastic drawing of iron wire, Problems of mechanical engineering and reliability of machines, 5, 32–38.]Search in Google Scholar
[15. SurkaevL. (2015), Magnetohydrodynamic perturbations arising in metallic conductors under the action of the discharge current, Technical Physics,60(7), 981–993.10.1134/S1063784215070270]Search in Google Scholar
[16. Troitskiy O.A. (2007), Influence of current Pulse count in Pulse Train and time Lag Between Pulses on the Electroplastic metal Deformation, Symposium China-Rassia “Elektroplastic effect in metals”,China, 28–32.]Search in Google Scholar
[17. Troitskiy O.A. (2008), Electronic mechanisms of electroplastic deformation of metals, Deformation and fracture of materials, 5, 41–44.]Search in Google Scholar
[18. Troitskiy O.A. (2008), Inertial effect of the Stewart-Tolman for high-speed wire drawing and the collision of the bullet with the target, Problems of mechanical engineering and reliability of machines, 9, 29–34.]Search in Google Scholar
[19. Troitskiy O.A. (2016), Physical and technological basis of electro-plastic deformation of metals, MGPU, Mozyr.]Search in Google Scholar
[20. Troitskiy O.A., Savenko V.S. (2013), Fundamental and applied researches of electroplastic deformation of metals: monograph, Ministry of Finance ITC, Minsk.]Search in Google Scholar