INVESTIGATION OF DYNAMIC CHARACTERISTICS OF NEW MAGNETO-ELASTIC TRANSDUCERS OF MECHANICAL QUANTITIES

Authors

Sulton Amirov, Tashkent state transport university. Tashkent sity, Republic of Uzbekistan;
Kamila Jurayeva, Tashkent state transport university. Tashkent sity, Republic of Uzbekistan. E-mail: lade00@bk.ru, Phone: +998712990444.Follow

Abstract

In the article examines the dynamic characteristics of new magnetically elastic converters of mechanical quantities by the method of parametric structural circuits. It is shown that the developed differential transformer magneto–elastic converters of power parameters in automatic monitoring and control systems act as a real differentiating link without statics, and magneto-elastic converters of motion parameters act as a whole in the form of sequentially connected oscillatory and real differentiating links. It has been established that the duration of the transient process in magnetoelastic converters of power parameters is determined by the parameters (magnetic capacitance and active magnetic resistance) of the magnetic circuit, and the duration of the transient process in magnetoelastic converters of motion parameters is mainly determined by the parameters (active resistance, inductance and capacitance) of the mechanical circuit. It is revealed that the duration of the transition process of magnetically elastic motion parameter converters is on average eight times longer than the duration of the transition process of magnetically elastic force parameter converters.

First Page

18

Last Page

28

References

1. Ageikin, D.I., Kostina, E.N., Kuznetsova, N.N. (1965). Monitoring and regulation sensors. Moscow: Mashinostroenie Publ., 928 p. (Russian).
2. Yusupbekov, N.R., Igamberdiev, Kh.Z., Malikov, A.V. (2007). Fundamentals of automation of technological processes: A textbook for higher and secondary specialized education. Tashkent: TSTU, 152 p. (Russian)
3. Amirov, S.F., Jurayeva, K.K. (2024). Principles of construction of magnetically elastic transducers of mechanical quantities. Railway transport: actual tasks and innovations, 3, 162-172. (Russian).
4. Bakharev, M.S. (2004). Development of methods and means for measuring mechanical stresses based on irreversible and quasi-reversible magnetoelastic phenomena. Dissertation of the Doctor of Technical Sciences. Tyumen, Tyumen State University, 320 p. (Russian).
5. Amirov, S.F., Jurayeva, K.K. (2019). Magnetoelastic force sensors for monitoring and control systems of railway transport facilities. Tashkent: Fan va texnologiya, 162 p. (Russian).
6. Gumanyuk, M.N., Mostovoy, A.V. (1977). The current state and prospects of development of magnetoelastic transducers. Overview information/Central Research Institute of Technical Technology of Instrument Engineering. Moscow, 59 p. (Russian).
7. Amirov, S.F., Fayzullaev, Zh.S., Jurayeva, K.K., Boltaev, O.T. (2021). Magnetoelastic sensor of compressive forces. No. IAP 06441.
8. Amirov, S.F., Jurayeva, K.K., Fayzullaev, Zh.S., Yuldashev, N.R., (2024). Magnetoelastic tensile force sensor. No. IAP 07715.
9. Amirov, S.F., Jurayeva, K.K., Fayzullaev, Zh.S., Turaev, Sh.D. (2024). Magnetoelastic transducer for measuring vibration parameters. No. IAP 07870.
10. Amirov, S.F., Jurayeva, K.K., Fayzullaev, Zh.S., Turaev, Sh.D. (2024). Magnetoelastic converter of rotation parameters. No. IAP 07871.
11. Zaripov, M.F., Zainullin, N.R., Petrova, I.Y. (1988). Energy information method of scientific and technical creativity. Moscow: VNIIPI GKNT, 124 p. (Russian).
12. Demirchyan, K.S., Neiman, L.R., Korovkin, N.V., Chechurin, V.L. (2006). Theoretical foundations of electrical engineering. St. Petersburg: Peter, 2. 576 p. (Russian).
13. Rybalchenko, Yu.I. (1981). Magnetoelastic torque sensors. Moscow: Mashinostroenie Publ., 128 p. (Russian).
14. Levintov, S.D., Borisov, A.M. (1984). Contactless magnetically elastic torque sensors. M.: Energoatomizdat, 86 p. (Russian).
15. Bronstein, I.N., Semendyaev, K.A. (1986). Handbook of Mathematics for engineers and students of higher education institutions. Moscow: Nauka, 544 p. (Russian).

Recommended Citation

Amirov, Sulton and Jurayeva, Kamila (2025) "INVESTIGATION OF DYNAMIC CHARACTERISTICS OF NEW MAGNETO-ELASTIC TRANSDUCERS OF MECHANICAL QUANTITIES," Chemical Technology, Control and Management: Vol. 2025: Iss. 1, Article 3.
DOI: https://doi.org/10.59048/2181-1105.1656