International Journal of Automotive Technology

The Korean Society of Automotive Engineers (한국자동차공학회)
권호 표지

QUALITY STABILIZATION OF BALL SEAT IN AUTOMOTIVE SUSPENSION PARTS

  • KANG T.-H. (Graduate School, Pukyong National University) ;
  • KIM I.-K. (Regional Research Center of Pukyong National University) ;
  • KIM Y.-S. (School of Mechanical Engineering, Pukyong National University)
  • Published : 2005.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

Recently, many solution have been suggested to development of plastic products. Among many manufacturing technologies for plastic parts, the injection molding process is very attractive because of its low production cost and short cycle time. In this paper, the plastic ball seat of a ball joint, one of the essential components for automotive suspension or steering system, was studied to enhance its mechanical performance and durability by using PA66 that is reinforced polymeric plastic resin. But ball seat has some trouble in manufacture process. And strength of molded part is not enough to use. For the quality stabilization and reliability of injection molded parts, we designed the mold cavities through analytical simulation software and tested the mechanical performance for the injection molded ball-seat parts. After modification, tensile strength increases by about $13.5\%$. Strength and quality stabilization is improved.

Keywords

References

  1. Belofsky, H. (1994). Product Design and Process Engineering. Hanser. U.S.A
  2. Folgar, F. and Tucker, C. L. (1986). Orientation behavior of fibers in concentrated suspension. J. Reinforcement Plastic Composites, 3, 98-119
  3. Friedle, C. F. and McCaffrev, N. J. (1991). Crystallization prediction in injection Molding. SPE 5, 330-332
  4. Mamat, A., Trochu, F. and Sanschagrin, B. (1994). Shrinkage analysis of molded polypropylene parts. SPE 4, 513-517
  5. Menges, G. and Mohren, P. (1993). How to Make Injection Molds. 2nd edn, Hanser. U.S.A
  6. Walsh, S. F. (1993). Shrinkage and warpage prediction for injection molded components. J. Reinforcement Plastic Composites, 12, 769-778 https://doi.org/10.1177/073168449301200703
  7. Yoon, Y. H., Choi, M. J. and Kim, K. H. (2002). Development of a reverse continuous variable damper for semi-active suspension. Int. J. Automotive Technology 3, 1, 27-32