• Proceedings of the Korean Society of Precision Engineering Conference
• /
• 1992.04a
• /
• pp.74-78
• /
• 1992

외부가 비축대칭인 튜브의 수방압출은 자동차와 항공기등의 복잡한 부품을 만드는데 많이 사용된다. 이런 후방압출 제품의 변형 상태는 저자들의 논문에서 이미 밝힌 바와 같이 복잡하다. 그래서, 외부가 비출대칭인 튜브형상의 후방압출은 근래에 와서 연구되었다. 본 연구에서는 저자들의 논문 에서 제시된 동적가용속도장을 수정하여 비축대칭인 소재에서 내부가 원형인 튜브의 후방압출의 최종 단계를 해석하 고자 한다. 해석의 적용예로서는 정다각형 소재와 모서리가 둥근 직사각형(rounded rectangle)소재를 택하였다 제시된 속도장으로부터 단면 감소율과 형상비(aspect ratio)에 대하여 압출 하중과 압출된 소재의 평균 높이가 결정된다. 이론적인 결과와 비교하기 위하여 퓰림처리된 AIST-2024 알루미늄 소재로 실험하였다.

• Transactions of the Korean Society of Mechanical Engineers
• /
• v.14 no.1
• /
• pp.1-12
• /
• 1990

The study is concerned with the analysis of combined forging of non-axisymmetric shapes with inclined protrusions by UBET technique. Work hardening is considered for the given range of strain rate during the forging process. A complex shape with inclined cavities is analyzed by subdividing the workpiece into finite UBET elements for which simple velocity fields are applicable. An experimental set-up was designed and manufactured for the experiment, and experiments are carried out with lead billets. The devised set-up can be used for closed-die forging of complex shapes with protrusions in which the dies can be separated automatically for easy removal of the forged products. Based on the derived kinematically admissible velocity fields for corresponding UBET elements, general computer programs have been developed. Since the energy dissipation rate for each elemental region is provided by subprograms (Subroutine or Function), the developed program can be applied to the forging problems of various shapes. The present study has shown that the method developed can be effectively applied to forging of non-axisymmetric shapes with complicated protrusions.