关键词: LASD；驾驶室；模态分析；面板贡献量；NTF

Abstract: In order to achieve the goal of sound pressure level beside the ear of a cab, a liquid applied sound damping (LASD) is applied to the interior of its cab for noise control. Through modal analysis, the preliminary coated area is identified using the modal integrated strain energy method. Noise transfer function (NTF) and panel contribution analysis is performed on the cab (uncoated project) to identify the sheet metal with higher response to noise and form the optimized coating project. Comparing the three project of the uncoated project, the coated area before and after optimization, it is found that the sound pressure level of the optimized project is reduced by 2.7 dB in the X direction excitation -25 Hz, the sound pressure level is reduced by 2 dB in the Y direction excitation -66 Hz, the sound pressure level of the optimized project is reduced by 1.2 dB in the Z direction excitation -23 Hz compared with the uncoated project, and the difference in the sound pressure level before and after optimization is relatively small. It shows that the application of LASD can significantly reduce noise of the cab.

Key words: LASD; cab; modal analysis; panel contribution; NTF