Simulation and Control of Two Side Direction Burr

Hai Jun Qu; J.H. Yang; Gui Cheng Wang

doi:10.4028/www.scientific.net/AMM.143-144.428

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 143-144Simulation and Control of Two Side Direction Burr

Simulation and Control of Two Side Direction Burr

Abstract:

A finite element model was developed for simulation of two side direction burr formation process. Based on strain distribution, a two side burr formation mechanism was proposed. Burr form and burr size of simulation are close to that's of experiment. Finite element model generated here provided a numerical analysis method to solve the prediction of burr and chip formation and physical insight into the fundamental burr formation mechanism. The stain in two side direction of material near the side face decides the shape and the size of two side direction. Multi-workpieces are machined at the same time with side face closely by each others can control the formation of two side direction strain and two side direction burr.

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Periodical:

Applied Mechanics and Materials (Volumes 143-144)

Pages:

428-432

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.143-144.428

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Online since:

December 2011

Authors:

Hai Jun Qu, J.H. Yang, Gui Cheng Wang

Keywords:

Burr Control, Finite Element Model (FEM), Two Side Direction Burr, Two Side Direction Strain

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References

[1] G.C. Wang. Metal cutting burrs. [M] Jilin: Jilin Press of science and technology, 1997. 11(in Chinese).

Google Scholar

[2] G.C. Wang, C.G. Shen, H.J. Pei, et al. Formation and Control of Two Side Direction Burr [J] Advanced Materials Research, 2007, 24-25: 39-44.

DOI: 10.4028/www.scientific.net/amr.24-25.39

Google Scholar

[3] Y.M. Zhu. Study on Formation and controlling of Metal cutting Burr and Development of Burr Expert System [D]. Zhenjiang: Jiangsu University. 2006(in Chinese).

Google Scholar

[4] G.C. Wang. Study on two side direction burr formation in orthogonal cutting [J]. Journal of basic science and engineering, 1997, 5(3): 276-281(in Chinese).

Google Scholar

[5] H.J. Qu, G.C. Wang, Y.M. Zhu et al. Simulation of two side direction burr formation. 2010 International Conference on Digital Manufacturing & Automation: 379-382.

DOI: 10.1109/icdma.2010.220

Google Scholar

[6] G.C. Wang Y.M. Zhu C.Y. Zhang. Mathematical model of two side direction burr formation[J] Acta armamentaria, 2003, 24(4): 513-515 (in Chinese).

Google Scholar

[7] K. Nakayama, M. Arai. Burr Formation in Metal Cutting [J]. Annals of the CRIP, 1987, 36 (1): 33-36.

DOI: 10.1016/s0007-8506(07)62547-5

Google Scholar

[8] S.T. Fan. Burrs formation mechanism of precision turning. [D] Zhenjiang: Jiangsu university of science and technology, 1997(in Chinese).

Google Scholar

[9] H.J. Qu, G.C. Wang, H.J. Pei, et al. Formation and Simulation of Cutting-direction Burr in Orthogonal Cutting [J]. Advanced Materials Research, 2007, 24-25: 249-254.

DOI: 10.4028/www.scientific.net/amr.24-25.249

Google Scholar

[10] H.J. Qu, G.C. Wang, Y.M. Zhu, et al. Formation and simulation of Two Side Direction Burr in orthogonal cutting [J]. Advanced Materials Research, 2008, 53-54: 77-84.

DOI: 10.4028/www.scientific.net/amr.53-54.77

Google Scholar

[11] Z.D. Zhao L.J. Yao R.Q. Pen G.C. Wang. Handbook of Copper and copper alloy [M]. Beijing: Press of science and technology, 1993(in Chinese).

Google Scholar

[12] M. G. Cockroft: Determination of workpice flow stress and friction at chip-tool contact for high-speed cutting. International Journal of Machine Tools & Manufacture. (2000), P. 133~152.

DOI: 10.1016/s0890-6955(99)00051-6

Google Scholar

[13] N. N. Zorev: Inter-relationship between shear processes occurring along tool face and shear plane in metal cutting, Proceedings of International Research in Production Engineering, ASME, New York. (1963), P42~49.

Google Scholar