Journal of the Korean Society for Precision Engineering (한국정밀공학회지)

Korean Society for Precision Engineering (한국정밀공학회)
권호 표지

FEM Analysis of the Spline Joint with Bolt Pre-load

스플라인결합 조인트의 볼트 예하중에 대한 유한요소 해석

  • Tak, Seung-Min (Department of Mechanical Engineering, Engineering Research Inst., Gyeongsang National Univ.) ;
  • Kang, Min-Kyu (Department of Mechanical Engineering, Engineering Research Inst., Gyeongsang National Univ.) ;
  • Park, Dong-Jin (Department of Mechanical Engineering, Engineering Research Inst., Gyeongsang National Univ.) ;
  • Lee, Seok-Soon (Department of Mechanical Engineering, Engineering Research Inst., Gyeongsang National Univ.)
  • Received : 2010.12.10
  • Accepted : 2011.08.07
  • Published : 2011.11.01
Download PDF
⟨ Previous Next ⟩

Abstract

Most of the mechanical structures use bolting or spot welding for the whole structure. In recent years, bolting & rivets are used rather than the welding due to reassembly and repair. Analysis of bolted joints is so complicate that many conditions must be considered such as pre-load and contact, etc.. Bolted joint analysis is done by theoretical, experimental & numerical methods. However, numerical analysis in the bolted joint is used because the contact and stress in the joints are changed due to the pre-load. In this study, we analysis the slip and the deformation of the contact area in the joint depending on the pre-load and find the optimized bolting condition.

Keywords

References

  1. Nikolaidis, E. and Lee, K. J., "A 3-D joint model for automotive structures," SAE transactions, Vol. 101, No. 6, pp. 1220-1232, 1992.
  2. Joseph, E. S. and Charles, R. M., "Mechanical engineering Design 5th Edition," McGraw-Hill Classic Reissue, pp. 338-340, 2002.
  3. Ko, K., Mckay, M. L. and Lehnhoff, T. F., "Member Stiffness and contact pressure distribution of bolted joints," Journal of Mechanical Design, Vol. 116, No. 2, pp. 550-557, 1994. https://doi.org/10.1115/1.2919413
  4. Kim, K. Y. and Cho, C., "Stress analysis of bolted joint by the finite element method," Proceeding of the Korean Society of Automotive Engineers Autumn Conference, Vol. 2, pp. 1025-1030, 1997.
  5. Kim, J. G., Park, S. S., Kim, Y. Y., Choi, S. H. and Kim, B. K., "Finite element modeling and experimental verification of the structures with bolted joints," Journal of the KSAE, Vol. 20, No. 6, pp. 1854-1861, 1996.
  6. Yoon, J. C., Kang, B. S., and Kim, J., "A Study on Finite Element Modeling of the Structure with Bolted Joints," Journal of KSPE, Vol. 20, No. 8, pp. 205-212, 2003.
  7. Baek, S. N., Jee, T. H. and Park, Y. P., "Dynamic parameter analysis of bolted joint," Transaction of the Korean Society of Mechanical Engineers A, Vol. 20, No. 1, pp. 53-67, 1996.
  8. Kwon, Y. D., Goo, N. S., Kim, S. Y. and Cho, M. H., "Finite element modeling for static and dynamic analysis of structures with bolted joint," Transaction of the Korean Society of Mechanical Engineers A, Vol. 26, No. 4, pp. 667-676, 2002. https://doi.org/10.3795/KSME-A.2002.26.4.667
  9. Lee, J. H., Ha, T. H., Kim, D. S. and Lee, C. H., "Study on stiffness of bolt joints according to preload," Proceeding of the Korea Society of Mechanical Engineers Autumn Conference, pp. 559- 560, 2009.
  10. Song, J. H., Kim, J. K., Kang, H. Y. and Yang, S. M., "Estimation of contact stress distribution factor in bolt joint with variable fastening torque," Journal of the Korean society of Machine Tool Engineers, Vol. 8, No. 2, pp. 73-79, 1999.
  11. Lee, S. S., Hwang, Y. J. and Kim, H. J., "CATIA V5 Basic," Kyobobook, pp. 79-140, 2009.
  12. ABAQUS, "ABAQUS analysis User's Manual," pp. (15-1)-(15-20), 2006.
  13. Altair Engineering, "Hypermesh 9.0 tutorial," pp. 75-82, 2009.
  14. Lee, B. Y., "Three-Dimensional Contact Stress Analysis for Structural Design of Bolted Joint Assembly of Pressure Vessels in Nuclear Power Plants," Journal of the KSPE, Vol. 16, No. 4, pp. 122- 128, 1999.
  15. Hong, J. P., "Mechanical design theory and reality fifth edition," kyobobook, p. 388, 2008.