Simulation and Experimental Research on Milling Force of High Manganese Steel

Yong Tang; Qiang Wu; Xiao Fang Hu; Yu Zhong Li

doi:10.4028/www.scientific.net/AMR.143-144.863

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 143-144Simulation and Experimental Research on Milling...

Simulation and Experimental Research on Milling Force of High Manganese Steel

Abstract:

The milling process of hard-to-cut material high manganese steel ZGMn13 was simulated and experimental studied based on Johnson-Cook material model and shear failure model.The high speed milling processing finite element model has established adopting arbitrary Lagrangian-Euler method (ALE) and the grid adaptive technology,The influence of milling parameters to milling force is analyzed in the high speed milling high manganese steel process. The simulated and experimental results being discussed are matched well. It certifies the finite element model is correct.

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Periodical:

Advanced Materials Research (Volumes 143-144)

Pages:

863-867

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.143-144.863

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Online since:

October 2010

Authors:

Yong Tang, Qiang Wu, Xiao Fang Hu, Yu Zhong Li

Keywords:

High Speed Milling (HSM), High-Manganese Steel, Milling Force, Simulation

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References

[1] Xu Lanying. Study on Electric Hot Minipore Drilling For Hard-to-Cut Material. South China University of Technology. doctoral dissertation (2009).

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[2] Yan Changgang: Study on Experiment of Tool Life Test for Milling of ZGMn13 High Manganese Steel. Tool technology . Vol. 43 (5) (2009). p.21.

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[3] He Zhenwei. cutting heat test and finite element analysis in High Speed Turning of Carbon Steel. South China University of Technology. master's degree thesis (2005).

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[4] Zhang Shijie: High manganese steel cutting process performance analysis. Tool technology. Vol. 43 (3)( 2009), p.72.

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