Study on sound transmission loss modeling through simplified sealing specimens and an automotive door sealing system

IF 0.3 4区 工程技术 Q4 ACOUSTICS Noise Control Engineering Journal Pub Date : 2021-07-01 DOI:10.3397/1/376929
Guoming Deng, Jianwang Shaob, Songlin Zheng, Xian Wu
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Abstract

An imperfect sealing system would be the main path of the noise propagating into the interior compartment of a high-speed vehicle. The study on the sound insulation modeling of automotive door sealing systems, which involve complicated threedimensional sealing structures and gap cavities, has attracted more and more attention. This study employs hybrid finite element–statistical energy analysis (FE-SEA) models to predict the sound transmission loss of three simplified sealing specimens and an actual automotive door sealing system. For the actual sealing system under compression, a three-dimensional FEmodel is built to simulate the nonlinear compression, which can acquire the compressed geometries and pre-stress modal results of the seals for further prediction of the sound transmission loss. The hybrid FE-SEA method is firstly verified by the experimental result of a double plate vibro-acoustic system and another numerical method. Several factors concerning the modeling, including the boundary conditions, the equivalent elastic modulus for the hyper-elastic rubber, the specimen length, and the structural grid size, are considered to study their impacts on the sound transmission loss. The effects of using shell elements and using solid elements to model the sealing rubber layers are also compared. The results of this study can provide guides regarding the trade-off between the modeling efficiency and accuracy, so that it has significance for engineering modeling, as well as the design and optimization of automotive door sealing systems.
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基于简化密封试样和汽车门密封系统的传声损失模型研究
不完善的密封系统将是高速车辆内部噪声传播的主要途径。汽车车门密封系统涉及复杂的三维密封结构和间隙腔体,其隔声建模研究越来越受到人们的重视。采用有限元-统计能量分析(FE-SEA)混合模型,对三种简化密封试样和实际汽车车门密封系统的传声损失进行了预测。针对实际密封系统在压缩条件下的受力情况,建立三维有限元模型进行非线性压缩模拟,获取密封件的压缩几何形状和预应力模态结果,进一步预测传声损失。首先通过双板振动声系统的实验结果和另一种数值方法验证了FE-SEA混合方法。考虑了边界条件、超弹性橡胶等效弹性模量、试件长度和结构网格尺寸等因素对声传输损失的影响。并比较了壳单元和实体单元对密封橡胶层的模拟效果。研究结果可为建模效率与精度之间的权衡提供指导,对工程建模以及汽车车门密封系统的设计与优化具有一定的指导意义。
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来源期刊
Noise Control Engineering Journal
Noise Control Engineering Journal 工程技术-工程:综合
CiteScore
0.90
自引率
25.00%
发文量
37
审稿时长
3 months
期刊介绍: NCEJ is the pre-eminent academic journal of noise control. It is the International Journal of the Institute of Noise Control Engineering of the USA. It is also produced with the participation and assistance of the Korean Society of Noise and Vibration Engineering (KSNVE). NCEJ reaches noise control professionals around the world, covering over 50 national noise control societies and institutes. INCE encourages you to submit your next paper to NCEJ. Choosing NCEJ: Provides the opportunity to reach a global audience of NCE professionals, academics, and students; Enhances the prestige of your work; Validates your work by formal peer review.
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