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Investigation of the Noise Reduction in the Hollow Cylinder Structure  

Lee, Sang-Won (Dept. of Precision Mechanical Engineering, Graduate School, Andong National University)
Lee, Jong-Kil (Mechanical Engineering Education, College of Education, Andong National University)
Jo, Chi-Yong (Agency for Defense Development, Chinhae)
Publication Information
대한공업교육학회지 / v.36, no.1, 2011 , pp. 115-130 More about this Journal
Abstract
When the hollow cylinder structure moves in underwater with high speed structural can be propagated from the end of the structure to the front side. This noise can reduce the sensitivity of the conformal array which installed in the surface of the cylinder. To reduce this noise propagation it is suggested to install two self-reduction rings at the surrounding of the cylinder which is 500mm in diameter and 840mm in length. The places of the two noise reduction rings are 120mm and 240mm point from the end of the structure. Two noise reduction rings reduced 10.1 % of maximum stress. When outside noise frequency applied to the structure from the 4kZ to 6kHz, 20dB noise reduction was calculated using 6 order polynomial equation. When outside noise frequency also applied to the structure with 200Hz, 500Hz, 900Hz, maximum sound pressure level point moved to the end of the structure. Most conformal sensors are fabricated at the front side of the structure. Based on the simulation results proposed two rings can be reduced noise propagation from the tail of the structure effectively.
Keywords
Hollow cylinder structure; Noise propagation; Self-Noise reduction ring; Noise reduction;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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