BAI, Ligang ;WANG, Xipeng ;ZHUANG, Hui ;ZHANG, Yuanpeng ;CHEN, Peng ;DING, Jianguo .
An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration.
Articles in Press, [S.l.], v. 0, n.0, p. , november 2025.
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/>. Date accessed: 05 mar. 2026.
doi:http://dx.doi.org/.
BAI, L., WANG, X., ZHUANG, H., ZHANG, Y., CHEN, P., & DING, J.
(0).
An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration.
Articles in Press, 0(0), .
doi:http://dx.doi.org/
@article{.,
author = {Ligang BAI and Xipeng WANG and Hui ZHUANG and Yuanpeng ZHANG and Peng CHEN and Jianguo DING},
title = {An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration},
journal = {Articles in Press},
volume = {0},
number = {0},
year = {0},
keywords = {convoluted air springs; static characteristics; dynamic characteristics; analysis process; },
abstract = {This paper presents a novel geometric analytical model to analyze the static characteristics of convoluted air springs (CAS). The model assumes that the profile of the bellow is composed of double circular arcs with different radii of curvature and takes into account the effects of bellow stretching deformation. Through geometric analysis, an analytical model for the structural parameters of the CAS is established. Furthermore, this paper proposes an analysis process of using CAS geometric analytical method instead of finite element static analysis. The static and dynamic characteristics of the CAS are studied through the experiment and the analysis process proposed in this paper, confirming the feasibility of the proposed double circular arc model and analysis process. Finally, based on the analysis process proposed in this study, a simulation model of an air spring vibration isolation system is constructed in Fluent, using the geometric parameters and internal pressure output from the geometric analytical model. The dynamic response of the system is then analyzed. The analysis results are then compared with those from the full-process finite element simulation, demonstrating that the proposed analysis process ensures computational accuracy while improving computational efficiency.},
issn = {0039-2480}, pages = {}, doi = {},
url = {https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/}
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BAI, L.,WANG, X.,ZHUANG, H.,ZHANG, Y.,CHEN, P.,DING, J.
0 November 0. An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration. Articles in Press. [Online] 0:0
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%K convoluted air springs; static characteristics; dynamic characteristics; analysis process;
%X This paper presents a novel geometric analytical model to analyze the static characteristics of convoluted air springs (CAS). The model assumes that the profile of the bellow is composed of double circular arcs with different radii of curvature and takes into account the effects of bellow stretching deformation. Through geometric analysis, an analytical model for the structural parameters of the CAS is established. Furthermore, this paper proposes an analysis process of using CAS geometric analytical method instead of finite element static analysis. The static and dynamic characteristics of the CAS are studied through the experiment and the analysis process proposed in this paper, confirming the feasibility of the proposed double circular arc model and analysis process. Finally, based on the analysis process proposed in this study, a simulation model of an air spring vibration isolation system is constructed in Fluent, using the geometric parameters and internal pressure output from the geometric analytical model. The dynamic response of the system is then analyzed. The analysis results are then compared with those from the full-process finite element simulation, demonstrating that the proposed analysis process ensures computational accuracy while improving computational efficiency.
%U https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/
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BAI, Ligang, Xipeng WANG, Hui ZHUANG, Yuanpeng ZHANG, Peng CHEN, & Jianguo DING.
"An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration." Articles in Press [Online], 0.0 (0): . Web. 05 Mar. 2026
TY - JOUR
AU - BAI, Ligang
AU - WANG, Xipeng
AU - ZHUANG, Hui
AU - ZHANG, Yuanpeng
AU - CHEN, Peng
AU - DING, Jianguo
PY - 0
TI - An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration
JF - Articles in Press
DO -
KW - convoluted air springs; static characteristics; dynamic characteristics; analysis process;
N2 - This paper presents a novel geometric analytical model to analyze the static characteristics of convoluted air springs (CAS). The model assumes that the profile of the bellow is composed of double circular arcs with different radii of curvature and takes into account the effects of bellow stretching deformation. Through geometric analysis, an analytical model for the structural parameters of the CAS is established. Furthermore, this paper proposes an analysis process of using CAS geometric analytical method instead of finite element static analysis. The static and dynamic characteristics of the CAS are studied through the experiment and the analysis process proposed in this paper, confirming the feasibility of the proposed double circular arc model and analysis process. Finally, based on the analysis process proposed in this study, a simulation model of an air spring vibration isolation system is constructed in Fluent, using the geometric parameters and internal pressure output from the geometric analytical model. The dynamic response of the system is then analyzed. The analysis results are then compared with those from the full-process finite element simulation, demonstrating that the proposed analysis process ensures computational accuracy while improving computational efficiency.
UR - https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/
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author = {BAI, L., WANG, X., ZHUANG, H., ZHANG, Y., CHEN, P., DING, J.},
title = {An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration},
journal = {Articles in Press},
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url = {https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/}
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TY - JOUR
AU - BAI, Ligang
AU - WANG, Xipeng
AU - ZHUANG, Hui
AU - ZHANG, Yuanpeng
AU - CHEN, Peng
AU - DING, Jianguo
PY - 2025/11/11
TI - An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration
JF - Articles in Press; Vol 0, No 0 (0): Articles in Press
DO -
KW - convoluted air springs, static characteristics, dynamic characteristics, analysis process,
N2 - This paper presents a novel geometric analytical model to analyze the static characteristics of convoluted air springs (CAS). The model assumes that the profile of the bellow is composed of double circular arcs with different radii of curvature and takes into account the effects of bellow stretching deformation. Through geometric analysis, an analytical model for the structural parameters of the CAS is established. Furthermore, this paper proposes an analysis process of using CAS geometric analytical method instead of finite element static analysis. The static and dynamic characteristics of the CAS are studied through the experiment and the analysis process proposed in this paper, confirming the feasibility of the proposed double circular arc model and analysis process. Finally, based on the analysis process proposed in this study, a simulation model of an air spring vibration isolation system is constructed in Fluent, using the geometric parameters and internal pressure output from the geometric analytical model. The dynamic response of the system is then analyzed. The analysis results are then compared with those from the full-process finite element simulation, demonstrating that the proposed analysis process ensures computational accuracy while improving computational efficiency.
UR - https://www.sv-jme.eu/sl/article/an-improved-model-of-convoluted-air-springs-and-simulation-of-an-air-spring-vibration-isolation-system-under-the-ambient-vibration/
BAI, Ligang, WANG, Xipeng, ZHUANG, Hui, ZHANG, Yuanpeng, CHEN, Peng, AND DING, Jianguo.
"An improved model of convoluted air springs and simulation of an air spring vibration isolation system under the ambient vibration" Articles in Press [Online], Volume 0 Number 0 (11 November 2025)
