Moscow, Moscow, Russian Federation
Kaluga, Kaluga, Russian Federation
Ivanovo, Ivanovo, Russian Federation
Ivanovo, Ivanovo, Russian Federation
Moscow, Moscow, Russian Federation
UDK 537.632/.636 Действия магнитных полей
UDK 53.09 Зависимость различных явлений от некоторых основных физических воздействий
UDK 53.098 от магнитных воздействий
UDK 538.95 Свойства и явления (кроме явлений переноса)
UDK 538.955 магнитные
Atomic force microscopy and magnetic force microscopy have been used to study the influence of weak magnetic field pulses on the local properties of ribbon amorphous Fe(Ni, Cu)(SiB) alloys about 100 µm thick, 10 mm wide, and 50 mm long, which were obtained by ultrafast cooling of the melt on a rotating copper drum. On the surface of the tape adjacent to the copper drum, there were practically no areas with low rough-ness, which did not allow subsequent studies of this side of the tape by magnetic force microscopy. This method was used to investigate another, free surface of the foil, which was not adjacent to the copper drum and did not have significant roughness. Prior to the impact of magnetic field pulses on the foil, no magnetic contrast was observed on the free side of the ribbon. After magnetic pulse processing, a magnetic contrast was registered on this side of the foil: stripe domains 0.6–0.8 μm wide became visible, and closing domains, became visible on structural defects, wedge-shaped Neel domains, from 1 µm to 1.6 µm wide. The results of the study allow us to say that the magnetization reversal losses are to a large extent associated with losses due to eddy currents and are associated with the domain width, which depends slightly on the modes of magnetic pulse processing. The obtained results of the research can be used to refine the method for relieving stresses arising in the process of manufacturing amorphous ribbons.
atomic force microscopy, magnetic force microscopy, magnetic pulse processing, stripe domains, closure domains
1. A. M. Glezer and B. V. Molotilov, Structure and mechanical properties of amorphous alloys. Moscow : Metallurgiya, 1992. (In Russ.).
2. Yu. N. Starodubtsev and V. Ya. Belozerov, Magnetic properties of amorphous and nanocrystalline alloys. Yekaterinburg : Ural University Press, 2002. (In Russ.).
3. O. V. Stogney, Physics of amorphous metal alloys. Voronezh : 2007. (In Russ.).
4. A. M. Glezer and M. R. Plotnikova, “Influence of megaplastic deformation on the structure and magnetic properties of amorphous alloys based on iron and nickel,” Scientific Bulletin of the Belgorod State University. Ser. Math., physics, no. 11(106), iss. 23, pp. 159-165, 2011. (In Russ.)
5. Yu. N. Dragoshansky and V. I. Pudov, “Improvement of the magnetic structure and properties of soft magnetic alloys due to surface modification,” Physics and Chemistry of Materials Processing, no. 3, pp. 44-52, 2013 (In Russ.).
6. Y. Starodubtsev and V. Belozerov, “Amorphous metallic materials,” Power electronics, no. 2, pp. 86-89, 2009. (In Russ.).
7. O. L. Sokol-Kutylovsky, “Some prospects for the use of amorphous ferromagnetic alloys,” International Scientific Research Journal, no. 5-3 (47), pp. 176-170, 2016, doi:https://doi.org/10.18454/IRJ.2016.47.226. (In Russ.).
8. V. I. Alshits, E. V. Darinskaya, M. V. Koldaeva, and E. A. Petrzhik, “Magnetoplastic effect : Basic properties and physical mechanisms,” Crystallography Re-ports, vol. 48, no. 5, pp. 768-795, 2003, doi:https://doi.org/10.1134/1.1612598. (In Russ.).
9. M. N. Shipko, A. I. Tikhonov, M. A. Stepovich, A. A. Viryus, T. P. Kaminskaya, V. V. Korovushkin, E. S. Savchenko, and I. V. Eremin, “Effect of Magneto-Pulse Processing on the Microstructure and Magnetic Behavior of Amorphous Electrotechnical Steel,” Bulletin of the Russian Academy of Sciences: Physics, vol. 82, no. 8, pp. 988-992, 2018, doi:https://doi.org/10.3103/S1062873818080373.
10. A. A. Viryus, T. P. Kaminskaya, M. N. Shipko, N. D. Bakhteeva, V. V. Korovushkin, A. G. Savchenko, M. A. Stepovich, E. S. Savchenko, and E.V. Todorova, “Microscopic research of amorphous alloys AlFeNiLa exposed to magnetic pulse processing,” IOP Conference Series : Materials Science and Engineering, vol. 848, Art. no. 012085, 2020, doi:https://doi.org/10.1088/1757-899X/848/1/012085.
11. M. N. Shipko, A. L. Sibirev, M. A. Stepovich, A. I. Tikhonov, and E. V. Savchenko, “Effect of Magnetic-Pulse Processing on the Emission and Magnetic Properties of the Surface Layer of Amorphous Alloys Used in Electrical Engineering,” Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, vol. 15, no. 5, pp. 970-974, 2021, doi:https://doi.org/10.1134/S1027451021050190.
12. M. N. Shipko, M. A. Stepovich, A. L. Sibirev, A. I. Tikhonov, E. S. Savchenko, and T. P. Kaminskaya, “Effect of magnetic pulse treatment on the surface state, emission, and magnetic properties of amorphous magnetic alloys,” Bulletin of the Russian Academy of Sciences : Physics, vol. 85, no. 11, pp. 1191-1194, 2021, doi:https://doi.org/10.3103/S1062873821110356.
13. V. L. Mironov, Fundamentals of scanning probe microscopy. Textbook for senior students of higher educational institutions. Nizhny Novgorod : Institute of Physics of Microstructures RAS, 2004. (In Russ.).
14. E. Meyer, H. J. Hug, R. Bennewitz, Scanning Probe Microscopy. The Lab on a Tip. Berlin, Heidelberg : Springer, 2004.
15. M. N. Shipko, T. P. Kaminskaya, M. A. Stepovich, A. A. Viryus, and A. I. Tikhonov, “On the Effect of Magnetic Pulsed Treatment on the Surface Structure and Magnetic Properties of Ribbon Amorphous Fe(Ni,Cu)(SiB) Alloys,” Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, vol. 17, no. 1, pp. 186-190, 2023, doi:https://doi.org/10.1134/S1027451023010378.
16. S. V. Vonsovsky, Magnetism. Moscow : Nauka, 1984. (In Russ.).
17. N. V. Andreeva, A. V. Filimonov, A. I. Rudskoy, G. S. Burkhanov, I. S. Tereshina, G. A. Politova, and I. A. Pelevin, “Investigation of nanostructured magnetically hard materials of the Nd-Ho-Fe-Co-B system by methods of atomic force and magnetic force microscopy,” Solid State Physics, vol. 58. no. 9, pp. 1798-1805, 2016. (In Russ.).
