Your browser does not support the PubReader view.
Go to this page to see a list of supporting browsers.
한국생산제조학회 학술지 영문 홈페이지
[ Article ]
Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 27, No. 3, pp.188-193
ISSN: 2508-5107 (Online)
Print publication date 15 Jun 2018
Received 16 Apr 2018 Accepted 08 May 2018
DOI: https://doi.org/10.7735/ksmte.2018.27.3.188

스텐강 권취코일 결속용 타이밴드의 결속 밴드수 연구

이종선a, *
Research on Number of Tie Bands Used to Fasten Stainless-Steel Coils
ChongSun Leea, *
aDepartment Mechanical and Control Engieering, Handong Global University, 104 Newton Hall, 558, Handong-ro, Pohang, Gyeongbuk-do, 37554,, Korea

Correspondence to: *Tel.: +82-54-260-1393, Fax: +82-54-260-1322, E-mail address: cslee@handong.edu (ChongSun Lee).

Abstract

The research aims to establish a scientific basis for the required number of tie bands used in fastening stainless-steel coils in steel manufacturing lines. Strain gages were installed on the steel tie bands and stresses were measured during the banding and delivery procedure of coil rolls in the recoiling field. Our results showed that the springback stress was low when the coil thickness was below 3.0 mm, but increased significantly with increased thickness. The comparison between the measured springback stress and the theoretical springback stress formula developed in this study showed a good correlation coefficient of 0.945, thus demonstrating the usefulness of the formula in predicting the springback stress. Our results showed that the current factory standard on the number of tie bands did not significantly consider the increase in the springback force with increased coil thickness.

Keywords:

Springback stress, Stainless steel coil, Tie band, Strain gage

References

  • Gardiner, F. J., 1957, The Springback of Metals, Trans. ASME 79:1 1–9.
  • Lee, C. S., Jung, I. S., 2006, Investigation of Stresses on Tie Band Used to Wrap and Fasten Rolled Coils, J. Modern Mechanical Engineering 2:3 86-91.
  • Kim, K. H., 1985, Theory and Practice of Thin Metals, Bando Publishing, Korea.
  • Johnson, W., Yu, T. X., 1981, On Springback After the Pure Bending of Beams and Plates of Elastic Work-Hardening Material, Int. J. Mech. Sci. 23:11 687-695.
  • Yu, T. X., Johnson,W., 1982, Influence of Axial Force on the Elastic-Plastic Bending and Springback of a Beam, J. Mechanical Working Technology 6:1 15-21.
  • Park, K., Choi, S. R., 2001, Rigid-Plastic Finite Element Analysis for the Lamination Process of a Precision Motor Core Using Progressive Dies, Korean Society of Manufacturing Technology Engineers 10:5 45-52.
  • Lee, J. I., Kim, B. G., Chung, T. J., 2005, Automotive Body Design, Korean Society of Manufacturing Technology Engineers 17:5 10-22.
  • Hibbeler, R. C., 2005, Mechanics of Materials, Prentice Hall.