Experiment and Simulation Study on Static and Dynamic Stiffness of
Automobile Seat Cushion 2023-01-5077
The ride comfort of automobiles is greatly affected by the static and dynamic
characteristics of the seat cushion. To simulate these characteristics
accurately and further provide reference for the optimization design of seat,
the finite element models are established in this article. First, the static
stiffness tests of the seat cushion and leather cover are performed,
respectively, to expose their static characteristics. Then, the dynamic
stiffness/damping test are carried out to evaluate the dynamic characteristic of
the cushion. Third, simulation models (including static stiffness and dynamic
stiffness models) are founded and calibrated based on the above test data.
Finally, the consistency of simulation and experiment results is evaluated and
quantified by introducing goodness-of-fit. The results indicate that (1)
calibrated models built in this study can reflect the static and dynamic
characteristics of the seat cushion accurately. (2) The proposed dynamic
stiffness model can better predict the dynamic characteristic of the cushion,
which can provide guidance for improving seat comfort. (3) The model constructed
in this article can be further applied to subsequent models of seat-occupant
coupling system (SoCS), which has practical significance for predicting and
optimizing transmissibility in the future.
Author(s):
Liangsong Chen, Niu Xiyuan, Song Jun, Qiu Yi, Wang Zunming
Affiliated:
Guangzhou Automobile Group Co Ltd, NVH Department, GAC R&, Guangzhou Automobile Group Co., Ltd., Automotive Research an, Zhejiang University, Laboratory of Vibration, Noise and Huma
Pages: 11
Event:
Automotive Technical Papers
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Finite element analysis
Vehicle ride
Optimization
Seats and seating
Comfort
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