Investigation of a multilayer magnetorheological elastomer damper characteristics


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The paper presents the design of a damper based on a multilayer magnetorheological elastomer that has high load capacity, up to 500 N. The damper is able to operate in all vibration control modes, depending on its control signal. The damper cooling system is presented. Vibration tests were carried out and the damper amplitude-frequency characteristics were obtained. The transition process of damper displacement with a control step signal was analyzed.

Sobre autores

A. Bazinenkov

Bauman Moscow State Technical University

Autor responsável pela correspondência
Email: ambazinenkov@bmstu.ru

Candidate of Science (Engineering), Associate Professor

Rússia

A. Shagimuratova

Bauman Moscow State Technical University

Email: alina_shagimuratova@icloud.com

Student

Rússia

I. Makeev

Bauman Moscow State Technical University

Email: vano656565@mail.ru

Engineer

Rússia

V. Bakharev

Bauman Moscow State Technical University

Email: v.bakharev.wow@yandex.ru

Student

Rússia

V. Mukhanov

Bauman Moscow State Technical University

Email: vovamuhanov1998@mail.ru

Postgraduate Student

Rússia

Bibliografia

  1. Vibratsii v tekhnike: spravochnik v 6 t. T. 6. Zashchita ot vibratsiy i udarov / pod red. K.V. Frolova [Vibration and shock protection]. Moscow: Mashinostroenie Publ., 1981. 456 p.
  2. Shul'man Z.P., Kordonskiy V.I. Magnitoreologicheskiy effekt [Magnetorheological effect]. Minsk: Nauka i Tekhnika Publ., 1982. 184 p.
  3. Kavlicoglu B.M., Liu Y., Sahin H., Wallis B. Soft matrix magnetorheological mounts for shock and vibration isolation: US patent no. 8820492. Publ. 02.09.2014.
  4. Sun L., Sun H., Li R. Semi-active isolators based on magnetorheological nanocomposites: US patent no. 9581214. Publ. 25.12.2014
  5. Behrooz M., Yarra S., Mar D., Pinuelas N., Muzinich B., Publicover N.G., Pekcan G., Itani A., Gordaninejad F. A self-sensing magnetorheological elastomer-based adaptive bridge bearing with a wireless data monitoring system. Proceedings of SPIE – The International Society for Optical Engineering. 2016. V. 9803. doi: 10.1117/12.2218691
  6. Deng H.X., Gong X.L. Adaptive tuned vibration absorber based on magnetorheological elastomer. Journal of Intelligent Material Systems and Structures. 2007. V. 18, Iss. 12. P. 1205-1210. doi: 10.1177/1045389X07083128
  7. Bazinenkov A.M., Makeev I.V., Rotari A.P., Ivanova D.A. Estimation of the position error of the magnetorheological elastomers active vibration control platform for precision vacuum equipment. IOP Conference Series: Materials Science and Engineering. 2018. V. 387. doi: 10.1088/1757-899X/387/1/012006

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