Abstract
A device with improved damping properties is considered. A model describing the thermodynamic and gas-dynamic processes within the device and the dynamics of the protected object is outlined. On the basis of the model, the principles governing the operation of the device may be identified, and the elastic-damping characteristic may be derived.
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Aver’yanov, G.S., Issledovanie protsessov i putei povysheniya effektivnosti vozdushnogo dempfirovaniya v pnevmaticjeskikh amortizatorakh vibrozashchitnykh sistem (Investigation and Improvement of Air Damping in Pneumatic Shock Absorbers of Vibration-Protection Systems), Omsk: Omskii GTU, 1999.
Aver’yanov, G.S., Zenzin, Yu.A., and Belitskii, V.D., Operational Cycle of a Pneumatic Shock Absorber with Active Control of Thermodynamic Gas Parameters, Dinamika mashin i rabochikh protsessov: Mezhvuz. sb. nauch. tr. (Dynamics of Machines and Operational Processes: An Interuniversity Collection), Chelyabinsk, 1985, pp. 144–149.
Russian Patent 2304522.
Russian Patent 2304523.
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Original Russian Text © R.N. Khamitov, G.S. Aver’yanov, A.B. Korchagin, 2009, published in Vestnik Mashinostroeniya, 2009, No. 9, pp. 14–17.
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Khamitov, R.N., Aver’yanov, G.S. & Korchagin, A.B. Pneumatic shock absorber with an active damping system. Russ. Engin. Res. 29, 871–873 (2009). https://doi.org/10.3103/S1068798X09090032
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DOI: https://doi.org/10.3103/S1068798X09090032