Main Catalog Physics Instrumentation and Methods of Experimental Physics

Active impact force sensor structurally similar to the magnetoelastic transducers

Authors: Dolgikh E.S., Drozdov A.P., Lavrushin O.M., Shpilkovskiy P.V.
Published in issue: #10(87)/2023
DOI: 10.18698/2541-8009-2023-10-943
Category: Physics \| Chapter: Instrumentation and Methods of Experimental Physics
Keywords: measurement, metrology, deformation, active impact forces, magnetoelastic transducer, dynamic calibration, load characteristics, Hertz problem
Published: 06.12.2023

The intense impact forces measurement is of significant interest to researchers; however, this problem still does not have a reliable solution. This is due to both the missing physical transducer capable of working with the high-intensity contact impact forces and the missing dynamic calibration techniques for such transducers. Based on new data on the ferromagnets behavior under the dynamic deformation, it became possible to use a magnetoelastic type transducer to measure the active dynamic loads, including the high-intensity impact contact forces, and develop prototypes of the dynamic calibration techniques for them.

References

[1] Lavrushin M.Yu. Measurement sensors based on the generator effect in ferromagnets. Instruments, 2020, no. 5 (239), pp. 21–27. (In Russ.).

[2] Lavrushin M.Yu. Datchik dlya izmereniya udarnykh kontaktnykh sil [Sensor for measuring impact contact forces]. Inzhenerno-fizicheskie problemy novoy tekhniki. XIV VNTK: sb. mater. [Engineering and physical problems of new technology. XIV VNTK: collection of materials]. Moscow, BMSTU Press, 2020, pp. 51–55. (In Russ.).

[3] Lavrushin M.Yu. Issledovanie protsessov vysokoskorostnoy deformatsii kontaktnym datchikom sily [Study of high-speed deformation processes using a contact force sensor]. Inzhenerno-fizicheskie problemy novoy tekhniki. XIV VNTK: sb. mater. [Engineering and physical problems of new technology. XIV VNTK: collection of materials]. Moscow, BMSTU Press, 2020, pp. 56–58. (In Russ.).

[4] Lavrushin M.Yu. Investigation of the behavior of a ferromagnet under dynamic deformation on the example of an invar 44NKhTYu. Instruments, 2022, no. 10 (268), pp. 54–62. (In Russ.).

[5] Lavrushin M.Yu. A new device for measuring impact active force, structurally similar to magnetoelastic transducers. Instruments, 2022, no. 10 (268), pp. 45–53. (In Russ.).

[6] Baumann E. Izmerenie sil elektricheskimi metodami [Measurement of forces by electrical methods]. Moscow, Mir Publ., 1978, 430 p. (In Russ.).

[7] Shishkinskiy V.I. Magnitoanizotropnye monolitnye siloizmeriteli [Magnetoanisotropic monolithic force meters]. Moscow, Mashinostroenie Publ., 1981, 80 p. (In Russ.).

[8] Kharkevich A.A. Teoriya preobrazovateley: izbrannye trudy [Theory of transducers: selected works]. Moscow, Nauka Publ., 1973, vol. 1, pp. 52–217. (In Russ.).

[9] Kol’skiy G. Volny napryazheniya v tverdykh telakh [Stress waves in solids]. Moscow, Inostrannaya literature Publ., 1955, 194 p. (In Russ.).

[10] GOST ISO 5347-0–95. Mezhgosudarstvennyy standart. Vibratsiya. Metody kalibrovki datchikov vibratsii i udara [State Standart 5347-0–95. Interstate standard. Vibration. Methods for calibrating vibration and shock sensors]. Moscow, Standard Publ., 1995, 29 p. (In Russ.).