• Title/Summary/Keyword: 압출을 위한 자동 격자 재구성

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Non-steady state finite element analysis of nonisothermal hot container extrusion through conical dies (원추형금형을 통한 비 등온 열간 콘테이너 압출의 비정상상태 유한요소해석)

  • Kang, Yean-Sick;Yang, Dong-Yol
    • Journal of the Korean Society for Precision Engineering
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    • v.10 no.2
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    • pp.30-39
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    • 1993
  • The study is concerned with the thermo-viscoplastic finite element analysis of nonisothermal hot container extrusion through conical dies. The problem is treated as a non-steady state incorporating the nonisothermal heat transfer analysis. The analysis of temperature distribution includes heat transfer though the boundary surface including conduction, convection and radiation. The analysis of heat transfer is decoupled with the analysis of deformation and the material interaction is considered through iteration procedure. The effect of important process parameters including die angle and extrusion ratio in the process is investigated. Due to the geometric feature for the container extrusion through conical dies, automatic remeshing is mandatory. Automatic remeshing is achieved by introducing the modular remeshing technique.

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Finite Element Analysis of Axisymmetric Hot Extrusion Through Square Dies (평금형을 이용한 축대칭 열간 압출의 유한요소해석)

  • 강연식;박치용;양동열
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.16 no.2
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    • pp.207-225
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    • 1992
  • The study is concerned with the thermo-viscoplastic finite element analysis of axisymmetric forward hot extrusion through square dies. The problem is treated as a nonsteady state problem because the distribution of temperature and material properties are continuously changing with the punch travel. In square die extrusion, difficulties arise from the severe distortion and die interference of elements at the aperture rim of the die even with a small punch travel. And finite element computation is impossible without intermittent remeshing. Accordingly, an automatic remeshing technique is proposed by employing specially designed mesh structure near the aperture rim. The analysis of temperature distribution includes heat conduction through material interfaces, heat convection and radiation to the atmosphere and is carried out by decoupling the heat analysis from the analysis of the deformation. The extrusion load and the distributions of strain rate and temperature are computed for the given cases rendering reasonable results. Computed grid distortions are found to be in good agreement with the experimental results. It has been thus shown that the proposed method of analysis can be effectively applied to the axisymmetric hot extrusion through square dies.