한국자동차공학회논문집 (Transactions of the Korean Society of Automotive Engineers)

  • 제22권6호
  • /
  • Pages.68-74
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  • 2014
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  • 1225-6382(pISSN)
  • /
  • 2234-0149(eISSN)
한국자동차공학회 (The Korean Society of Automotive Engineers)
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자동차 휠의 종류별 피로 내구성 해석

Fatigue Durability Analysis due to the Classes of Automotive Wheels

  • 한문식 (계명대학교 기계자동차공학과) ;
  • 조재웅 (공주대학교 기계자동차공학부)
  • Han, Moonsik (Department of Mechanical & Automotive Engineering, Keimyung University) ;
  • Cho, Jaeung (Department of Mechanical & Automotive Engineering, Kongju National University)
  • 투고 : 2014.01.29
  • 심사 : 2014.02.07
  • 발행 : 2014.09.01
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초록

This study analyzes structural stress and fatigue about three types of automotive wheels. As maximum equivalent stresses at 1, 2 and 3 types become lower than the yield stress of material and deformations become minute, theses types are thought be safe on durability. Type 2 model has the most fatigue life among three kinds of types and the rest of models with fatigue lives are shown in the order of type 1 and 3. As the most fatigue frequency of type 2 model happens at the state of average stress and amplitude stress on the stress range narrower than type 1 or 3, type 2 model becomes most stable. In case of type 2 with the state near the average stress of 0 MPa and the amplitude stress of 300MPa, the possibility of maximum damage becomes 30%. This stress state can be shown as the most damage possibility. These study results can be effectively utilized with the design on automotive wheel by anticipating and investigating prevention and durability against its damage.

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참고문헌

  1. J. Y. Song, J. C. Park and Y. S. Ahn, "Effect of Cast Microstructure on Fatigue Behaviors of A356 Aluminum Alloy for Automotive Wheel," Trans. of the KFS, Vol.30, No.1, pp.46-51, 2010.
  2. M. S. Kim, K. J. Ko, H. W. Song, C. G. Yang and K. M. Kim, "The Finite Element Analysis on 2-piece Orged Wheel for Fatigue Life Prediction," KSAE Fall Conference Proceedings, pp.691-696, 2004.
  3. M. S. Kim, K. J. Ko, J. H. Kim, C. G. Yang and K. M. Kim, "The Study on the Fatigue Life Prediction on Wheels through CAE," Transactions of KSAE, Vol.12, No.2, pp.117-122, 2004.
  4. K. J. Ko, M. S. Kim, H. W. Song and C. G. Yang, "A Study on the Stiffness of a 13degreetype Impact Tester for Aluminum Wheels," Transactions of KSAE, Vol.14, No.4, pp.12-19, 2006.
  5. B. W. Noh, S. I. Bae and D. K. Kim, "Structural Analysis of Aluminum Wheel for Automobiles," KSPE Fall Conference Proceedings, pp.822-825, 1997.
  6. B. S. Kim, C. H. Chi and S. D. Mun, "An Experimental Study on Vibration Characteristics of Alalloy Wheel for Passenger Car," KSME Fall Conference Proceedings, pp.623-628, 2001.
  7. B. S. Kim, "An Study on Vibration Characteristics of Automobile Al-alloy Wheel," Trans. of the KSMTE, Vol.14, No.3, pp.122-127, 2005.
  8. J. U. Cho and M. S. Han, "Analysis of Fatigue Damage at Wheel under Variable Load," Trans. of the KSMTE, Vol.19, No.6, pp.717-894, 2010.
  9. J. U. Cho and M. S. Han, "Structural Strength Analysis due to Rib Thickness of Lower Arm," Transactions of KSAE, Vol.22, No.1, pp.126-134, 2014. https://doi.org/10.7467/KSAE.2014.22.1.126
  10. J. U. Cho and M. S. Han, "Study on Structural Durability Analysis at Bicycle Saddle," Transactions of KSAE, Vol.21, No.5, pp.104-112, 2013. https://doi.org/10.7467/KSAE.2013.21.5.104
  11. J. Swanson, Ansys 12.0, Ansys Inc., USA, 2009.