Journal of the Korean Society for Precision Engineering (한국정밀공학회지)

Korean Society for Precision Engineering (한국정밀공학회)
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Development of High Precision Plate Holder in Automotive Seat Recliner by Mechanical Press(I) : Application of FCF Method

기계식 프레스에 의한 자동차 시트 리클라이너의 고정밀 플레이트 홀더 개발(I) : FCF 공법 적용

  • 김병민 (부산대학교 기계공학부) ;
  • 최홍석 (부산대학교 정밀가공시스템) ;
  • 장명진 ((주) DAS 금형팀) ;
  • 배재호 ((주) DAS 금형팀) ;
  • 이선봉 (계명대학교 기계자동차공학부) ;
  • 고대철 (부산대학교 부품소재산학협력연구소(ILIC))
  • Published : 2008.07.01
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Abstract

Fine blanking is a process of press shearing which makes it possible to produce the thick sheet metal of the finished surface and the close dimensional accuracy over the whole material thickness in the single blanking operation. In this paper, a plate holder of automotive seat recliner is manufactured by FCF(Flow Control Forming) method using the conventional mechanical press instead of the fine blanking press. Main processes for manufacturing of the plate holder by FCF method are embossing, half blanking and trimming processes. Optimal clearance, stripper force and counter force to increase the dimensional accuracy of the plate holder have been investigated by FE-analysis. As a result of FE-analysis, the clearance for both embossing and half blanking processes was -2%t and the forces of stripper and counter were 25ton and 15ton, respectively. After manufacturing the plate holder by FCF method, the measured dimensional characteristics have been compared with the required specifications as the final product. Although the dimensional accuracy of the plate holder manufactured by FCF method was a little inferior to that by fine blanking process, it was satisfactory in a general sense.

Keywords

References

  1. Ryu, B. Y., 'Fine Blanking Tool,' Sung An Dang, p. 4, 1994
  2. Akira, T., 'Fine Blanking and Direction of Proceeding,' Japan Society for Technology of Plasticity, Vol. 12, No. 129, pp. 725-732, 1971
  3. Kim, M. C., 'Development of Fine Blanking Technology,' Ministry of Science and Technology, pp. 3-12, 1987
  4. Hayashi, K., 'Technology of Fine Blanking and FCF,' Japan Society for Technology of Plasticity, Vol. 47, No. 546, pp. 8-11, 2006
  5. Nakano, T., 'Development of FCF Process for Thick Sheet Plate,' Japan Society for Technology of Plasticity, Vol. 47, No. 551, pp. 8-12, 2006
  6. Kim, Y. J., Kwak, T. S. and Bae, W. B., 'Finite Element Analysis on Effect of Die Clearance on Shear Planes in Fine Blanking,' Proceeding of Journal of the Korean Society for Technology of Plasticity, Vol. 9, No. 2, pp. 152-158, 2000
  7. Hatanaka, N., Yamaguchi, K. and Takakura, N., 'Finite Element Simulation of the Shearing Mechanism in the Blanking of Sheet Metal,' Journal of Materials Processing Technology, Vol. 139, No. 1, pp. 64-70, 2003 https://doi.org/10.1016/S0924-0136(03)00183-3
  8. Ko, D. C., Kim, B. M. and Choi, J. C., 'Simulation of Sheet Metal Blanking Process for Using Mesh Elimination,' Journal of the Korean Society of Precision Engineering, Vol. 13, No. 11, pp. 114-123, 1996
  9. Nakagawa, G., 'Compression Blanking,' Japan Society for Technology of Plasticity, Vol. 10, No. 99, pp. 244-252, 1969
  10. Shinohara, M. and Miyagawa, M., 'Effect of Hydrostatic Pressure on the Deformation and Fracture of Some Metals in Shearing,' Japan Society for Technology of Plasticity, Vol. 20, No. 220, pp. 398-405, 1979