An Analytical Solution of the Subsequent Drawing Force on Multistage Deep Drawing of Cylindrical Cup

Author:

Lin Qi Quan1,Wang Zhen Zhu1,Peng Yan Rong1,Hu Cheng Wu2,Dong Wen Zheng1,Wang Ying Le2

Affiliation:

1. Xiangtan University

2. Hunan University of Science and Technology

Abstract

In multistage deep drawing process, the subsequent drawing force (SDF) is a key reference value, which plays a significant role on the practical die structure design. In the present study, an analytical calculation of the radial stress at the die exit as well as the SDF in cylindrical cup drawing process are proposed, considering the previous strain hardening in the first drawing, normal anisotropy, frictional coefficient and die arc radius. As a result, the calculated maximum subsequent drawing force (MSDF) is in good agreement with experimental result. Besides, the MSDF decreases as normal anisotropy value increases, while increases as frictional coefficient and strain hardening exponent increases respectively.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Reference10 articles.

1. Gmbh, and Schuler. Metal Forming Handbook. Springer Berlin Heidelberg, New York, (1998).

2. Boljanovic, Vukota. Sheet Metal Forming Processes and Die Design. Industrial Press, New York, (2004).

3. Sonis P, Reddy N V, Lal G K. On Multistage Deep Drawing of Axisymmetric Components. Journal of Manufacturing Science & Engineering, 2003, 125(2):352-362.

4. Hill R. The Mathematical Theory of Plasticity. Clarendon Press, Oxford, (1950).

5. Leu D K. Prediction of the maximum drawing load in the cup-drawing process of sheet metals. Journal of Materials Processing Technology, 1997, 72(2):256-261.

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