Analytical models are proposed for the static and dynamic shock elastoplastic deformation of tubular energy absorbers employed in a plastic shock absorber. The models may be used in shock-absorber design.
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Kruglov, Yu.A. and Tumanov, Yu.A., Udarovibrozashchita mashin, oborudovaniya i apparatury (Hit and Vibration Protection of Machines, Equipment, and Devices), Leningrad: Mahsinostroenie, 1986.
Eloyan, S.M. and Gromyko, A.N., RF Patent 71149, 2008.
Eloyan, S.M. and Gromyko, A.N., RF Patent 71150, 2008.
Eloyan, S.M. and Gromyko, A.N., RF Patent 80523, 2009.
Eloyan, S.M., Molchanov, A.G., Gromyko, A.N., Makushkin, S.A., and Frolova, V.N., RF Patent 182 722, 2018.
Gromyko, A.N., Evdokimov, A.P., Makushkin, S.A., Molchanov, A.G., and Frolova, V.N., RF Patent 192 570, 2019.
Balabukh, L.I., Alfutov, N.A., and Usyukin, V.I., Stroitel’naya mekhanika raket (Construction Mechanics of Rockets), Moscow: Vysshaya Shkola, 1984.
Bezukhov, N.I. and Luzhin, O.V., Prilozhenie metodov toerii uprugosti i plastichnosti k resheniyu inzhenernykh zadach (Use of Theoretical Methods of Elasticity and Plasticity to Solution of Engineering Problems), Moscow: Vysshaya Shkola, 1974.
Translated by B. Gilbert
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Evdokimov, A.P., Gromyko, A.N. Elastoplastic Deformation of Tubular Energy Absorbers in Static and Shock Loading. Russ. Engin. Res. 40, 483–487 (2020). https://doi.org/10.3103/S1068798X20060106
- elastoplastic deformation
- dynamic behavior
- mathematical modeling
- tubular energy absorbers
- tubular plastic shock absorber
- impact loading