• Title/Summary/Keyword: 바디사이드

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Aerodynamic acoustics of automotive weather strip protuberance (풍절소음 저감을 위한 웨더스트립 돌출부 형상연구)

  • Kim, Tae-Hoo;Lee, Gye-Ho;Jeon, Seung-Gyeong;Hwang, Jung-Ho;Kim, Joon-Hyung
    • Proceedings of the KSME Conference
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    • 2007.05b
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    • pp.2546-2551
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    • 2007
  • Weather Strip(W/S) is a rubber part to proof water, sound and dust for opening and shutting devices including vehicle doors. And it requires high dimension precision and durability to proof water, noise, vibration and etc. But ironically it itself makes some wind noise because of some protuberance with glasses. The air flow analysis of door part of vehicle makes it possible to calculate and find out the cause of wind noise. In previous analysis, we focus on the numerical air flow analysis of the automobile side part. We do 2D-C.F.D first and 3D second. Through simulations, we can calculate the amount of sound pressure level at the glass run and find out the effects of glass run to make wind noise. Finally we can improve shape of glass run to reduce wind noise although it is small amounts of sound pressure reduction compared with total vehicle noise level.

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A Study on the Structural Analysis and Test of an Electric Car-Body (전동차 차체 구조물에 대한 구조해석 및 실험에 관한 연구)

  • 전형용;성낙원
    • Journal of the Korean Society for Precision Engineering
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    • v.15 no.12
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    • pp.28-36
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    • 1998
  • This investigation is the result of a structural analysis by the finite element method and static loading test for the optimal structural design of an electric railway vehicle made of stainless 301L materials. We analyzed the stress and displacement of the existing electric car-body structure for predicting the position of concentrated stress, the flow of stress, rigidity to be occurred in the car-body structure when it is subjected to the vertical load. It was exposed that the side sills and window corners around the bolsters are the weak parts of the electric car-body structure because the bolsters of the electric car-body structure were subjected to the vertical load and dynamic load to be occurred during running. The flow of stress and the cause of stress concentration in the weak zone were studied in order to prevent the concentration of stress and buckling. The rearrangement of the structure and the selection of the beam elements were also carried out for optimum design of the structure.

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