Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction

Cui Chao; Baiyang Shi; Jian Yang; Marian Wiercigroch

doi:10.1007/978-3-031-15758-5_99

Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction

Cui Chao, Baiyang Shi, Jian Yang^*, Marian Wiercigroch

^*Corresponding author for this work

University of Nottingham Ningbo China

Research output: Chapter in Book/Report/Conference proceeding › Published conference contribution

Abstract

This study investigates the vibration transmission and power dissipation behaviour of a mass-spring-damper system mounted on a conveyor belt. Coulomb friction exists between the mass and the belt moving at a constant velocity and acts as the external force for the mass. The steady-state power flow characteristics are obtained based on numerical integrations. The vibration energy dissipation at the contact interface and by the viscous damper is evaluated and quantified. The vibration transmission is measured by force transmissibility. For the system without the viscous damper, the instantaneous friction power can be positive or negative, depending on the motion characteristics of the mass. For the system with the viscous damper, in the steady-state motion, the vibration energy input caused by the friction can be dissipated by the viscous damper and also by the friction. Furthermore, effects of the magnitude of conveyor belt speed, damping ratio and friction force on the dynamic behaviour of systems are examined, and the power dissipation ratio of the system is analyzed. The results are expected to provide insights into the vibration transmission and suppression design of systems with friction.

Original language	English
Title of host publication	Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022
Editors	Zuzana Dimitrovová, Rodrigo Gonçalves, Zuzana Dimitrovová, Paritosh Biswas, Tiago Silva
Publisher	Springer Science and Business Media B.V.
Pages	957-965
Number of pages	9
Volume	125
ISBN (Print)	9783031157578
DOIs	https://doi.org/10.1007/978-3-031-15758-5_99
Publication status	Published - 2023
Event	10th International Conference on Wave Mechanics and Vibrations, WMVC 2022 - Lisbon, Portugal Duration: 4 Jul 2022 → 6 Jul 2022

Publication series

Name	Mechanisms and Machine Science
Volume	125 MMS
ISSN (Print)	2211-0984
ISSN (Electronic)	2211-0992

Conference

Conference	10th International Conference on Wave Mechanics and Vibrations, WMVC 2022
Country/Territory	Portugal
City	Lisbon
Period	4/07/22 → 6/07/22

Bibliographical note

Funding Information:
Acknowledgement. This work was supported by National Natural Science Foundation of China under Grant number 12172185 and by the Zhejiang Provincial Natural Science Foundation under Grant number LY22A020006.

Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.

Keywords

Dry friction
Power dissipation
Vibration transmission

Access to Document

10.1007/978-3-031-15758-5_99

Cite this

Chao, C., Shi, B., Yang, J., & Wiercigroch, M. (2023). Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction. In Z. Dimitrovová, R. Gonçalves, Z. Dimitrovová, P. Biswas, & T. Silva (Eds.), Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022 (Vol. 125, pp. 957-965). (Mechanisms and Machine Science; Vol. 125 MMS). Springer Science and Business Media B.V.. https://doi.org/10.1007/978-3-031-15758-5_99

Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction. / Chao, Cui; Shi, Baiyang; Yang, Jian et al.
Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022. ed. / Zuzana Dimitrovová; Rodrigo Gonçalves; Zuzana Dimitrovová; Paritosh Biswas; Tiago Silva. Vol. 125 Springer Science and Business Media B.V., 2023. p. 957-965 (Mechanisms and Machine Science; Vol. 125 MMS).

Research output: Chapter in Book/Report/Conference proceeding › Published conference contribution

Chao, C, Shi, B, Yang, J & Wiercigroch, M 2023, Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction. in Z Dimitrovová, R Gonçalves, Z Dimitrovová, P Biswas & T Silva (eds), Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022. vol. 125, Mechanisms and Machine Science, vol. 125 MMS, Springer Science and Business Media B.V., pp. 957-965, 10th International Conference on Wave Mechanics and Vibrations, WMVC 2022, Lisbon, Portugal, 4/07/22. https://doi.org/10.1007/978-3-031-15758-5_99

Chao C, Shi B, Yang J, Wiercigroch M. Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction. In Dimitrovová Z, Gonçalves R, Dimitrovová Z, Biswas P, Silva T, editors, Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022. Vol. 125. Springer Science and Business Media B.V. 2023. p. 957-965. (Mechanisms and Machine Science). doi: 10.1007/978-3-031-15758-5_99

Chao, Cui ; Shi, Baiyang ; Yang, Jian et al. / Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction. Recent Trends in Wave Mechanics and Vibrations - Proceedings of WMVC 2022. editor / Zuzana Dimitrovová ; Rodrigo Gonçalves ; Zuzana Dimitrovová ; Paritosh Biswas ; Tiago Silva. Vol. 125 Springer Science and Business Media B.V., 2023. pp. 957-965 (Mechanisms and Machine Science).

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AB - This study investigates the vibration transmission and power dissipation behaviour of a mass-spring-damper system mounted on a conveyor belt. Coulomb friction exists between the mass and the belt moving at a constant velocity and acts as the external force for the mass. The steady-state power flow characteristics are obtained based on numerical integrations. The vibration energy dissipation at the contact interface and by the viscous damper is evaluated and quantified. The vibration transmission is measured by force transmissibility. For the system without the viscous damper, the instantaneous friction power can be positive or negative, depending on the motion characteristics of the mass. For the system with the viscous damper, in the steady-state motion, the vibration energy input caused by the friction can be dissipated by the viscous damper and also by the friction. Furthermore, effects of the magnitude of conveyor belt speed, damping ratio and friction force on the dynamic behaviour of systems are examined, and the power dissipation ratio of the system is analyzed. The results are expected to provide insights into the vibration transmission and suppression design of systems with friction.

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Vibration Power Dissipation in a Spring-Damper-Mass System Excited by Dry Friction

Abstract

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Keywords

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