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TECHNICAL PAPERS

On the Nonuniform Deformation of the Cylinder Compression Test

[+] Author and Article Information
Fuh-Kuo Chen, Cheng-Jun Chen

Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan

J. Eng. Mater. Technol 122(2), 192-197 (Feb 13, 1999) (6 pages) doi:10.1115/1.482786 History: Received October 06, 1998; Revised February 13, 1999
Copyright © 2000 by ASME
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References

Siebel, E., 1923, Stahl und Eisen, Duesseldorf, 43 , p. 1295.
Avitzur, B., 1968, Metal Forming: Process and Analyses, McGraw-Hill, New York, pp. 102–111.
Lee,  C. H., and Altan,  T., 1972, “Influence of Flow Stress and Friction Upon Metal Flow in Upset Forging of Rings and Cylinders,” ASME J. Eng. Ind., 94, Aug., pp. 775–782.
Ettouney,  O., and Hardt,  D. E., 1983, “A Method for In-Process Failure Prediction in Cold Upset Forging,” ASME J. Eng. Ind., 105, pp. 161–167.
Bridgman, P. W., 1952, Studies in Large Plastic Flow and Fracture, McGraw-Hill, New York, pp. 9–86.
Hill,  R., 1963, “A General Method of Analysis for Metal-Working Processes,” J. Mech. Phys. Solids, 11, pp. 305–326.
Lahoti,  G. D., and Kobayashi,  S., 1974, “On Hill’s General Method of Analysis for Metal-Working Processes,” Int. J. Mech. Sci., 16, pp. 521–540.
Kobayashi, S., Oh, S. I., and Altan, T., 1989, Metal Forming and the Finite-Element Method, Oxford University Press, Oxford, pp. 78–83.
Chakrabarty, J., 1996, private communications.
Horton, H. L., Ryffel, H. H., and Schubert, P. B., 1959, Machinist’s Handbook, 16th Edition, The Industrial Press, New York, p. 152.
Johnson, W., and Mellor, P. B., 1975, Engineering Plasticity, Van Nostrand Reinhold, London, pp. 110–114.

Figures

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Configurations of barrel-shaped and equivalent specimens
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Initial mesh for the finite element simulation (unit: mm)
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Comparison of the simulated flow stresses (P/A) with the true flow stresses
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Compression load at various height reduction ratios (2Ho/do=1.0)
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Radius of bulge profile at various effective strains (2Ho/do=1.0)
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Comparison of flow stresses at various effective strains (2Ho/do=1.5;m=0.3)
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Comparison of flow stresses at various effective strains (2Ho/do=1.5;m=0.5)
Grahic Jump Location
Comparison of flow stresses at various effective strains (2Ho/do=1.0;m=0.5)

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