Experimental Study on Surface Integrity in High-Speed End Milling of Titanium Alloy TB6

Dao Xia Wu; Chang Feng Yao; Liang Tan; Jun Xue Ren; Ding Hua Zhang

doi:10.4028/www.scientific.net/AMM.328.867

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 328Experimental Study on Surface Integrity in...

Experimental Study on Surface Integrity in High-Speed End Milling of Titanium Alloy TB6

Abstract:

High-speed milling of titanium alloy is widely used in aviation and aerospace industries for its high efficiency and good quality. In order to obtain good surface integrity, experiments of high-speed end milling were performed to investigate the influence of milling parameters on surface integrity. The results show that the surface roughness, surface topography, residual stresses and microhardness are significantly affected by feed per tooth and milling speed. Good surface state was obtained when feed per tooth, milling speed, milling width and milling depth is close to 0.08mm/z, 100m/min, 7mm, and 0.2mm respectively. High-speed milling is favourable for improving machining efficiency and surface quality and therefore should be widely used in manufacturing of aircraft thin-wall structure parts. This study provides a theoretical basis and experimental evidence for the surface integrity of machined high-strength alloy.

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Periodical:

Applied Mechanics and Materials (Volume 328)

Pages:

867-871

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.328.867

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Online since:

June 2013

Authors:

Dao Xia Wu, Chang Feng Yao, Liang Tan, Jun Xue Ren, Ding Hua Zhang

Keywords:

High-Speed Milling, Residual Stress, Surface Integrity, Surface Roughness (SR), TB6 Titanium Alloy

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References

[1] M. J.Wang, X. J. Meng and Z. Q. Liao, in: DEV APPL MATER, vol. 24(5) (2009), pp.66-69 (in Chinese)

Google Scholar

[2] I. S. Jawahir, E. Brinksmeier and R. M'Saoubi, In: CIRP ANN-MANUF TECHN, vol.60 (2011), pp.603-626

Google Scholar

[3] J. Sun and Y.B. Guo, in: J. Mater. Process Technol., vol.209 (2009), pp.4036-4042

Google Scholar

[4] J. D. Puerta Velasqueza, A. Tidua and B. Bollea, in: Mater. Sci. Eng., A, vol.527 (2010), pp.4036-4042, 2572-2578

Google Scholar

[5] M. Thomas, S. Turner and M. Jackson, in: SCRIPTA MATER, vol.62 (2010), pp.250-253

Google Scholar

[6] A. L. Mantle and AE. K. Aspinwall, in: J. Mater. Process Technol., vol.118, (2001), pp.143-150

Google Scholar

[7] C. H. Che-Haron and A. Jawaid, in: J. Mater. Process Technol., vol.166 (2005), pp.188-192

Google Scholar

[8] C. H. Che-Haron, in: J. Mater. Process Technol., vol. 118 (2001), pp.231-237

Google Scholar

[9] J. Chen, J. Li, J. Sun and Z. Wang, in: Journal of Mechanical Strength, vol. 32 (2010), pp.53-57 (in Chinese)

Google Scholar

[10] S. G. Du, Ch. Lu and J.X. Ren, in: Acta Aeronautics et Astronautica Sinica, vol. 29(6) (2008), pp.1710-1715 (in Chinese)

Google Scholar

[11] Zh. Ch.Yang, D. H. Zhang and Ch. F. Yao, in: J NORTHWEST POLYTECHNIAL UNIV, vol . 27(4) (2009), pp.538-543 (in Chinese)

Google Scholar