Geodesic
Dynamics of the plow's working body under the action of vibrations
Čelâbinskij fiziko-matematičeskij žurnal, Tome 8 (2023) no. 3, pp. 387-398.

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The paper proposes a mathematical model for describing the movement of the working body of the plow, taking into account the vibration effect. The model is used to simulate the movement of the working body of the plow with an uneven speed of the traction unit. It was found that when accelerating, a stationary displacement of the working body of the plow occurs, as well as a decrease in the amplitude of oscillations and an exit to a stationary mode with a small amplitude of several millimeters. The specific power also reaches a stationary value over time. The parameters of steady oscillations depend on the stationary value of the speed of movement and the properties of the soil.
Keywords: modeling of physical processes, tillage, vibrations. 
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     title = {Dynamics of the plow's working body under the action of vibrations},
     journal = {\v{C}el\^abinskij fiziko-matemati\v{c}eskij \v{z}urnal},
     pages = {387--398},
     publisher = {mathdoc},
     volume = {8},
     number = {3},
     year = {2023},
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A. R. Yalaletdinov; I. R. Rakhimov; A. P. Kulikova; I. V. Bychkov; D. A. Kuzmin; D. A. Yalaletdinov; M. O. Usik; V. A. Tolkachev. Dynamics of the plow's working body under the action of vibrations. Čelâbinskij fiziko-matematičeskij žurnal, Tome 8 (2023) no. 3, pp. 387-398. http://geodesic.mathdoc.fr/item/CHFMJ_2023_8_3_a5/

[1] Myalo V.V., Myalo O.V., Demchuk E.V. et al., Mechanization of crop production, Omsk State Agrarian University, Omsk, 2016 (In Russ.)

[2] Tverdokhlebov S.A., Avetisyan O.M., Dukov S.S., “Justification of the rationality of using a vibrating tool for tillage”, Polythematic network electronic scientific journal of Kuban State Agrarian University, 123 (2016), 803–814 (In Russ.)

[3] Nestyak V.S., Kobyakov I.D., Soyunov A.S., “Traction resistance of the disc husker”, Tractors and agricultural machines, 79:12 (2012), 32–33 (In Russ.)

[4] Kobyakov I.D., Evchenko A.V., Chupin P.V., Soyunov A.S., “Husker with hexagonal disk working bodies”, Tractors and agricultural machines, 75:10 (2008), 14–16 (In Russ.)

[5] Kobyakov I.D., Soyunov A.S., “Optimization of the work of a hexagonal disk drive”, Mechanization and electrification of agriculture, 2008, no. 7, 45–46 (In Russ.)

[6] Vasilenko V.V., Afonichev D.N., Vasilenko S.V., Sturov D.V., “The effect of vibration on the angle of friction of the soil on the working body”, Forestry journal, 2013, no. 3, 123–126 (In Russ.) | MR

[7] Kudzaev A.B., Hadaev V.A., Tsgoev A.E., Cultivator, Patent no. 2276491 RF, MPK A01B 35/06, MPK A01B 35/24, MPK A01B 61/04. Declared 02.07.2003, published 20.05.2006 (In Russ.)

[8] Zazulya A.N., Balashov A.V., Belogorskiy V.P., Marnov S.V., Mikheev N.V., “The efficiency of using rotary plows for smooth plowing of the soil”, Bulletin of Michurinsk State Agrarian University, 2013, no. 1, 48–52 (In Russ.)

[9] CH 2.2.4/2.1.8.566-96. Industrial vibration, vibration in the premises of residential and public buildings. Sanitary standards, Information and Publishing Center of the Ministry of Healthcare of Russia, Moscow, 1997 (In Russ.)

[10] Fedorenko I.Ya., “Theory of interaction of vibrational working organs with soil”, Tractors and agricultural machines, 2016, no. 3, 15–19 (In Russ.)

[11] Myalo V.V., Mazurov V.V., “Energy-saving technologies in soil processing”, Vestnik Omskogo gosudarstvennogo agrarnogo universiteta, 2016, no. 3 (23), 242–246 (In Russ.)

[12] Degtyarev A.G., Plow body, A.s. 385543 SSSR, MKI A01V 11/00, A01V 15/00. Declared 25.05.1970, published 14.06.1973. Bulletin 26 (In Russ.)

[13] Dzitsoev A.P., Kalagova R.V., Kudzaev A.B., Khadaev V.A., Tsgoev A.E., Cultivator section, Patent no. 2315456 RF, MPK A01B 35/12, MPK A01B 35/20. Declared 29.05.2006, published 27.01.2008 (In Russ.)

[14] Kudzaev A.B., Khadaev V.A., Tsgoev A.E., Cultivator, Patent no. 22275775 RF, MPK A01B 35/06, MPK A01B 35/12, MPK A01B 35/24, MPK A01B 61/04. Declared 01.10.2003, published 10.05.2006 (In Russ.)

[15] Goryachkin V.P., Collected works, v. 2, Kolos Publ., Moscow, 1965 (In Russ.)

[16] Parshakov A.N., Physics of vibrations, Perm' National Research Politechnical University, Perm', 2010 (In Russ.)

[17] Rabinovich M.I., Trubetskov D.I., Introduction to the theory of vibrations and waves, Nauka Publ., Moscow, 1984 (In Russ.) | MR