Comparative Analysis of Transmission Housings to Evaluate Whining Noise Performance

ARAI Journal of Mobility Technology Pub Date : 2024-04-15 DOI:10.37285/ajmt.4.1.9

Kalyan Deepak Kolla, Ketan Paua, V. Vikraman, P.V.V. Sathyanarayana

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Abstract

A quite cabin is always a preferred choice of the customer. Powertrain acts as a source for many noise and vibration problems in a passenger car. Transmission plays a major role in modulating the power from engine to the drive train and is exposed to a high vibration and noise environments. Hence design of transmission for low vibration & noise is need of the hour. This paper attempts to perform a comparative study of 6 housings of different design of a two-wheel drive passenger car to evaluate the vibration performance and Noise radiation characteristics by using FEM (Finite Element Method) & BEM (Boundary Element Method) & finite element analysis techniques. The authors also try to put forward a layout comparison study for the housings and conclude what design is best suited for better NVH whine performance in view of vibrations & sound radiation. These indicative results from this paper can be referred by the design & analysis engineers during early product development of the transmission. Keywords: Transmission, Housings, Whining Noise, Bionic Design, NVH Analysis, Durability Analysis, Study of Housings, Housings NVH Analysis

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评估啸叫噪声性能的变速器外壳对比分析

舒适的车厢总是客户的首选。动力总成是乘用车中许多噪声和振动问题的根源。变速箱在调节发动机到传动系统的动力方面发挥着重要作用，并暴露在高振动和高噪音环境中。因此，设计低振动和低噪音的变速器是当务之急。本文尝试使用 FEM（有限元法）、BEM（边界元法）和有限元分析技术，对两轮驱动乘用车的 6 个不同设计的壳体进行比较研究，以评估其振动性能和噪声辐射特性。作者还尝试对轴承座进行布局比较研究，并得出结论：从振动和声辐射的角度来看，哪种设计最适合获得更好的 NVH 噪音性能。本文的这些指示性结果可供设计和分析工程师在变速器的早期产品开发中参考。关键词变速器、壳体、啸叫噪声、仿生设计、NVH 分析、耐久性分析、壳体研究、壳体 NVH 分析

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ARAI Journal of Mobility Technology

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