Optimization of Surface Roughness in End Milling of Medium Carbon Steel under the Influence of Magnets Attached to the Machine Spindle

A.K.M. Nurul Amin; Syidatul Akma; Maizatul Akma; M.D. Arif

doi:10.4028/www.scientific.net/AMR.576.115

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Optimization of Surface Roughness in End Milling of Medium Carbon Steel under the Influence of Magnets Attached to the Machine Spindle
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 576Optimization of Surface Roughness in End Milling...

Optimization of Surface Roughness in End Milling of Medium Carbon Steel under the Influence of Magnets Attached to the Machine Spindle

Abstract:

One of the major technological parameters in metal cutting is surface roughness. It is an unavoidable, and often, unwanted by-product of all machining operations, especially end milling. Surface roughness is directly related to product quality and performance, operation cost, machining accuracy, and chatter. Today’s stringent customer requirements demand machined parts with minimum (mirror finished) products. Hence, the prediction, modeling, and optimization of surface roughness is a quintessential concern in machining research and industrial endeavor. This research was undertaken in order to determine whether end milling of medium carbon steel performed using chosen ranges of cutting parameter and under magnetic field generated by permanent magnets could effectively improve surface roughness. A small central composite design with five levels and an alpha value of 1.4142, in Response Surface Methodology, was used in developing the relationship between cutting speed, feed, and depth of cut, with surface roughness. Design-Expert 6.0 software was utilized to develop the quadratic empirical mathematical model for surface roughness. The experiments were performed under two different conditions. The first condition was cutting under normal conditions, while the other one was cutting under the application of magnetic fields from two permanent magnets. Medium carbon steel was used as the work material. The resultant average surface roughness was found to be reduced by a maximum of 59% due to magnet application.

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Periodical:

Advanced Materials Research (Volume 576)

Pages:

115-118

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.576.115

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Online since:

October 2012

Authors:

A.K.M. Nurul Amin, Syidatul Akma, Maizatul Akma, M.D. Arif

Keywords:

Desirability Function, End Milling, Permanent Magnet, RSM, Surface Roughness (SR)

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References

[1] K. Kadirgama, M.M. Noor, A.N. Abd Alla, Response and colony optimization of end milling surface roughness, Sensors, 10 (2010) 2054-(2063).

DOI: 10.3390/s100302054

Google Scholar

[2] J.A. Ghani, I.A. Choudhury, H.H. Hassan, Application of taguchi method in the optimization of end milling parameters, J. Mat. Processing Technol. 145, No 1 (2004) 84-92.

DOI: 10.1016/s0924-0136(03)00865-3

Google Scholar

[3] T.L. Ginta, A.K.M.N. Amin, A.N.M. Karim, Modelling and optimization of tool life and surface roughness for end milling titanium alloy Ti–6Al–4V using uncoated carbide inserts, CUTSE Int. Conference, Miri Sarawak (2007).

DOI: 10.1299/jsmelem.2007.4.7a103

Google Scholar

[4] K. Funda, The use of response surface methodology for prediction and analysis of surface roughness of AISI 4140 steel, Mat. and Technol. 43(5) (2009) 267-270.

Google Scholar

[5] Md.A.U. Patwari, A.K.M.N. Amin, M.D. Arif, Optimization of surface roughness in end milling of medium carbon steel by coupled statistical approach with genetic algorithm, Int. J. of the Computer, the Internet and Management, 19, No. SPI (2011).

Google Scholar