Sains Malaysiana 42(12)(2013): 1721–1726

 

Tool Life of TiAlN PVD Coated Carbide Tool in High-speed End Milling of

Untreated Inconel 718 under Minimum Quantity Lubrication Condition

(Jangka Hayat Perkakas Pemotong Berkabida Bersalut TiAlN Menggunakan Pengisar Hujung untuk

Bahan Inconel 718 yang Tidak Dirawat dalam Keadaan Pelinciran Kuantiti Minimum)

 

M.S. KASIM2, C.H. CHE HARON1*, J.A. GHANI1, A.I. GUSRI1, M.Z.A. YAZID1 & M.A. SULAIMAN2 

 

1Department of Mechanical and Material Engineering, Faculty of Engineering and Built Environment

Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor D.E. Malaysia

 

2Department of Manufacturing Process, Faculty of Manufacturing Engineering, Universiti Teknikal Malaysia Melaka, 76100 Hang Tuah Jaya, Melaka

 

Received: 21 March 2012/Accepted: 14 May 2012

 

ABSTRACT

 

This paper presents the tool life of the end milled Inconel 718, which is part of a material that is difficult to be machined. Previous researchers found that tool life in machining aged Inconel 718 is shorter compared with other materials. However, this observation required further investigation. Thus, a raw grade Inconel was proposed in this experiment. The experiments were performed using TiAlN-coated carbide. The studied milling parameters were the cutting speed, Vc, from 90 to 150 m/min; feed rate, fz, from 0.15 to 0.25 mm/rev; depth of cut, ap, from 0.3 to 0.5 mm; and radial depth of cut, ae=1 mm. The application of the cutting fluid used in this experiment was a minimum quantity lubricant, which had the advantage of cooling effectiveness and low consumption of cutting fluid. The results showed that the feed rate, fz, was the primary factor controlling the tool life. The combination of Vc=115 m/min, fz=0.15 mm/tooth, as well as ap=0.5 mm and ae=0.15 mm gave the longest tool life that served 95.38 min in operation.

 

Keywords: Ball nose end mill; full factorial; Inconel 718; minimum quantity lubrication

 

ABSTRAK

Makalah ini membincangkan jangka hayat perkakas pemotong berkabida ketika mengisar hujung bebola bahan Inconel 718. Bahan ini secara umumnya diketahui sebagai salah satu bahan yang sukar dimesin. Kajian terdahulu mendapati pemotongan Inconel 718 yang dikerastua telah memendekkan jangka hayat pemotong. Ini memerlukan kajian lanjut dan Inconel 718 mentah dicadangkan untuk kajian ini. Uji kaji ini dijalankan dengan menggunakan pemotong berkabida bersalut endapan wap fizikal TiAlN. Parameter pemesinan melibatkan kederasan memotong Vc = 90-150 m/min, kadar suapan, fz = 0.15-0.25 mm/rev dan kedalaman pemotongan sebanyak 0.3-0.5 mm. Mengambil kira keberkesanan kesan penyejukan dan penjimatan, uji kaji ini dijalankan dalam keadaan pelinciran kuantiti minimum. Kajian mendapati kadar suapan adalah faktor utama kesan terhadap jangka hayat. Melalui uji kaji ini, jangka hayat mata alat pemotongan telah direkodkan selama 95.38 min dengan parameter Vc = 115 m/min, fz = 0.15 mm/gigi and ap = 0.5 mm dan ae= 0.15 mm.

 

Kata kunci: Faktoran penuh; Inconel 718; pelinciran kuantiti minimum; pengisar hujung bebola

 

REFERENCES

Alauddin, M., El Baradie, M.A. & Hashmi, M.S.J. 1995. Tool-life testing in the end milling of Inconel 718. Journal of Materials Processing Technology 55(3-4): 321-330.

Alauddin, M., El Baradie, M.A. & Hashmi, M.S.J. 1996. Modelling of cutting force in end milling Inconel 718. Journal of Materials Processing Technology 58(1): 100-108.

Alloys, N.S. 2011. 718 Inconel® Nickel Alloy Bar. http://www. nsalloys.com/718-nickel-alloy-bar.html. (3 March 2011).

Aspinwall, D.K., Dewes, R.C., Ng, E.G. Sage, C. & Soo, S.L. 2007. The influence of cutter orientation and workpiece angle on machinability when high-speed milling Inconel 718 under finishing conditions. International Journal of Machine Tools and Manufacture 47(12-13): 1839-1846.

Balazinski, M., Songméné, V. & Kops, L. 1995. Improvement of tool life through variable feed milling of Inconel 600. CIRP Annals - Manufacturing Technology 44(1): 55-58.

Dudzinski, D., Devillez, A., Moufki, A., Larrouquère, D., Zerrouki, V. & Vigneau, J. 2004. A review of developments towards dry and high speed machining of Inconel 718 alloy. International Journal of Machine Tools and Manufacture 44(4): 439-456.

Ezugwu, E.O., Bonney, J., Fadare, D.A. & Sales, W.F. 2005. Machining of nickel-base, Inconel 718, alloy with ceramic tools under finishing conditions with various coolant supply pressures. Journal of Materials Processing Technology 162- 163: 609-614.

ISO8688-2. 1989. Tool Life Testing in Milling - Part 2: End Milling Ed. Geneva: International Organization for Standardization (ISO).

Kamata, Y. & Obikawa, T. 2007. High speed MQL finish-turning of Inconel 718 with different coated tools. Journal of Materials Processing Technology 192-193: 281-286.

Krain, H.R., Sharman, A.R.C. & Ridgway, K. 2007. Optimisation of tool life and productivity when end milling Inconel 718TM. Journal of Materials Processing Technology 189(1-3): 153- 161.

Li, H.Z., Zeng, H. & Chen, X.Q. 2006. An experimental study of tool wear and cutting force variation in the end milling of Inconel 718 with coated carbide inserts. Journal of Materials Processing Technology 180(1-3): 296-304.

Reed, R.C. 2006. The Superalloys: Fundamental and Applications Ed. Cambridge: Cambridge University Press.

Thamizhmanii, S., Rosli & Hasan, S. 2009. A study of minimum quantity lubrication on Inconel 718 steel. International Scientific Journal 39(1): 38-44.

Thepsonthi, T., Hamdi, M. & Mitsui, K. 2009. Investigation into minimal-cutting-fluid application in high-speed milling of hardened steel using carbide mills. International Journal of Machine Tools and Manufacture 49(2): 156-162.

Ulutan, D. & Ozel, T. 2011.  Machining induced surface integrity in titanium and nickel alloys: A review. International Journal of Machine Tools & Manufacture 51: 31.

Weinert, K., Inasaki, I., Sutherland, J.W. & Wakabayashi, T. 2004. Dry machining and minimum quantity lubrication. CIRP Annals - Manufacturing Technology 53(2): 511-537.

 

 

*Corresponding author; email: chase@eng.ukm.my

 

 

 

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