With the advancement of regulatory norms in automobile industry, there is a challenge to meet performance efficiency targets, especially with a lightweight platform, while providing superior driving experience to customers. The shift towards weight optimization, makes the vehicle structure more susceptible to transfer a diverse range of noise and vibrations through body.
Although most undesirable noises perceived inside the cabin can be reduced by superior technology engine mounts and NVH packaging, all such solutions lead to cost addition. Intelligent considerations in part design can be used to supplement predictable transfer paths to quell the unwanted vibrations.
One such case is of the gear whine noise in certain rpm bands caused by inherent gear meshing frequency coinciding with natural frequency of an engine mounting bracket. This paper demonstrates two methodologies to counter such a phenomenon, either through engine mount bracket natural frequency optimization or addition of a dynamic damper. However, the focus is on frequency and mobility optimization approach. Another case is of gear “JAA” noise originating from the rattling of remaining freely engaged gears. This kind of gear induced vibration tends to transfer along dynamically weaker structural parts and become audible inside the cabin. This is countered by reducing the mobility of transfer path viz. engine mounting brackets.