Strain Rules of Cross Wedge Rolling Asymmetric Shaft-Parts Based on the Parity Wedge

Zhan Li; Xue Dao Shu; Wen Fei Peng; Bao Shou Sun

doi:10.4028/www.scientific.net/AMM.201-202.1066

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 201-202Strain Rules of Cross Wedge Rolling Asymmetric...

Strain Rules of Cross Wedge Rolling Asymmetric Shaft-Parts Based on the Parity Wedge

Abstract:

The analysising of strain is the key factors to understand the forming mechanism of cross wedge rolling asymmetric shaft. due to the extrusion of dies and other external force, its interior,interactions can cause the relative position between the various parts. In order to study the deformation of workpiece at different degrees, pulling in the finite element strain field analysis, the strain of the analysis at deformation process is also a necessary precondition for forming and stress distribution. In this papre,By using Deform3D platform, the forming process of the cross wedge rolling on parity wedge asymmetric shaft is simulated. It is also to be analyzed the distribution and variation of the amount of strain in the rolling process, it shows that a cross-sectional and longitudinal section about the deformation characteristics of the strain fields, the results can achieve production of cross wedge rolling and provide important theoretical foundation to promote further cross-wedge rolling.

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Periodical:

Applied Mechanics and Materials (Volumes 201-202)

Pages:

1066-1070

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.201-202.1066

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Online since:

October 2012

Authors:

Zhan Li, Xue Dao Shu, Wen Fei Peng, Bao Shou Sun

Keywords:

Asymmetric Shaft-Parts, Cross Wedge Rolling (CWR), Parity Wedge, Strain

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References

[1] Z.H.Hu, W.Zhang: Metal Processing, Vol. (2010) No.5, pp.14-16. (In Chinese)

Google Scholar

[2] D.P.LI，G.Q.LI and Z.B.BAI: Harbin Institute of Technology of Technology, Vol. (2000) No. 32(5), pp.97-99. (In Chinese)

Google Scholar

[3] J ZHONG: Development Strategy Report about Mechanical Engineering discipline (Scientific Publishing Co., Ltd. Press November 1, 2010). (In Chinese)

Google Scholar

[4] Z.H.Hu, K.S. Zhang, B.Y. Wang, X.D. Shu and C.P. Yang: Forming Technology by Cross-wedge Rolling and Simulation (Metallurgy Industry Press, 2004). (In Chinese)

Google Scholar

[5] Z.H.Hu, K.S. Zhang and B.Y. Wand: The Theory and Application of Cross Wedge Rolling (Metallurgy Industry Press, China 1996). (In Chinese)

Google Scholar

[6] W.F. Peng: Study on the Forming Mechanism and key Technologies of Cross wedge rolling Asymmetric Shaft Parts. (Ph.D., School of Mechanical Engineering University of Science and Technology Beijing 2011), pp.28-32. (In Chinese)

Google Scholar

[7] W.F. Peng, K.S. Zhang, Z. Jia and Z.H. Hu: Journal of Plasticity Engineering, Vol. 17 (2010) No.2, pp.79-84. (In Chinese)

Google Scholar

[8] C.P. Yang, Z.H.Hu and K.S. Zhang: Chinese Journal of Mechanical Engineering, Vol. (2004) No. 40(9), pp.80-83. (In Chinese)

Google Scholar

[9] Y Li Q: Lovell Michael R, Slaughter William and Tagavi Kaveh: Journal of Materials Processing Technology, Vol.(2002),pp.125-126:248-257.

Google Scholar

[10] W.K. Liu: Metallurgical Equipment, Vol. (2010), pp.52-54. (In Chinese)

Google Scholar

[11] C.M Li, X.L. Wang and Z.H.Hu: the instance tutorial of metal forming finite element analysis (Beijing Mechanical Industry Press, 2007). (In Chinese)

Google Scholar