Simulation of nonlinear vibration responses of cab system subject to suspension damper complete failure for trucks
The strong vibration responses of the cab system can be restrained by the damper force and the friction of the suspensions for trucks. After the failures of dampers, especially in the case of the complete failure, the anti vibration effect of the friction is prominent. However, the nonlinear vibrati...
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| Published in | International journal of modeling, simulation and scientific computing Vol. 11; no. 2; p. 2050017 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hackensack
World Scientific Publishing Company
01.04.2020
World Scientific Publishing Co. Pte., Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1793-9623 1793-9615 |
| DOI | 10.1142/S1793962320500178 |
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| Abstract | The strong vibration responses of the cab system can be restrained by the damper force and the friction of the suspensions for trucks. After the failures of dampers, especially in the case of the complete failure, the anti vibration effect of the friction is prominent. However, the nonlinear vibration response characteristics of the cab subject to the damper complete failure have not been revealed. In order to reveal the nonlinear vibration response characteristics, a dynamic model of the cab system was established and its vibration equations were given. The friction forces existing in the suspensions were determined by the bench test. The influences of the friction forces on the cab vibration under different amplitude harmonic inputs were investigated when the dampers completely fail. The cab vertical displacement changes with the excitation amplitude and the vibration represents various motion states, including the periodic motion, the quasi-periodic motion, and the chaotic motion. The simulation results show that when the dampers fail, the proper friction forces help to suppress the quasi-periodic motion and the chaotic motion of the cab and to reduce the amplitude of the periodic motion. The proper friction forces can make the cab movement far away from the chaos area. They also help to avoid the fatigue damage of the cab floor and suspension parts to improve the service life of the suspension parts and to reduce the maintenance cost of the cab suspensions. |
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| AbstractList | The strong vibration responses of the cab system can be restrained by the damper force and the friction of the suspensions for trucks. After the failures of dampers, especially in the case of the complete failure, the anti vibration effect of the friction is prominent. However, the nonlinear vibration response characteristics of the cab subject to the damper complete failure have not been revealed. In order to reveal the nonlinear vibration response characteristics, a dynamic model of the cab system was established and its vibration equations were given. The friction forces existing in the suspensions were determined by the bench test. The influences of the friction forces on the cab vibration under different amplitude harmonic inputs were investigated when the dampers completely fail. The cab vertical displacement changes with the excitation amplitude and the vibration represents various motion states, including the periodic motion, the quasi-periodic motion, and the chaotic motion. The simulation results show that when the dampers fail, the proper friction forces help to suppress the quasi-periodic motion and the chaotic motion of the cab and to reduce the amplitude of the periodic motion. The proper friction forces can make the cab movement far away from the chaos area. They also help to avoid the fatigue damage of the cab floor and suspension parts to improve the service life of the suspension parts and to reduce the maintenance cost of the cab suspensions. |
| Author | Zhao, Leilei Guo, Jian Yu, Yuewei Li, Xiaohan Zhou, Changcheng |
| Author_xml | – sequence: 1 givenname: Leilei surname: Zhao fullname: Zhao, Leilei – sequence: 2 givenname: Jian surname: Guo fullname: Guo, Jian – sequence: 3 givenname: Yuewei surname: Yu fullname: Yu, Yuewei – sequence: 4 givenname: Xiaohan surname: Li fullname: Li, Xiaohan – sequence: 5 givenname: Changcheng surname: Zhou fullname: Zhou, Changcheng |
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| Keywords | quasi-periodic motion complete failure chaos Vibration behaviors friction |
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| References | Yang F. (S1793962320500178BIB027) 2019; 2019 Jiang Y. (S1793962320500178BIB008) 2019; 19 Zhao L. L. (S1793962320500178BIB004) 2018; 39 S1793962320500178BIB001 S1793962320500178BIB023 S1793962320500178BIB002 S1793962320500178BIB021 S1793962320500178BIB022 S1793962320500178BIB005 S1793962320500178BIB006 S1793962320500178BIB028 S1793962320500178BIB003 S1793962320500178BIB025 S1793962320500178BIB009 S1793962320500178BIB007 S1793962320500178BIB029 Wang G. (S1793962320500178BIB019) 2017; 39 S1793962320500178BIB020 S1793962320500178BIB012 S1793962320500178BIB013 S1793962320500178BIB010 S1793962320500178BIB011 S1793962320500178BIB017 S1793962320500178BIB014 S1793962320500178BIB015 S1793962320500178BIB018 Huang D. (S1793962320500178BIB026) 2018; 12 |
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| SubjectTerms | Amplitudes Computer simulation Dampers Dynamic models Failure Fatigue failure Friction Maintenance costs Movement Nonlinear response Service life Trucks Vibration response |
| Title | Simulation of nonlinear vibration responses of cab system subject to suspension damper complete failure for trucks |
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