Interpretation of Side Rake Angle with Cutting Force and Surface Finish in Turning – An Experimental Approach

Authors

  • Prashanth T Dept. of Mechanical Engineering, Global Academy of Technology, Bangalore, India.
  • Prakash Rao C.R Dept. of Mechanical Engineering, Global Academy of Technology, Bangalore, India.
  • Nagaraja N Dept. of Mechanical Engineering, Global Academy of Technology, Bangalore, India.

Keywords:

Side rake angle, Cutting force, Surface finish, feed per revolution, Dry machining

Abstract

Cutting tools for metal cutting have many shapes, each of which are described by  their angles or geometries. Every one of these tool shapes has a specific purpose in metal cutting. The primary machining goal is to achieve the most efficient separation of chips from the work piece. For this reason, the selection of the right cutting tool geometry is critical. This paper presents an experimental investigation on the cutting tools having varied side rake angles and its strength and suitability on metal cutting application. Different side rake angle tools were taken for testing on EN8 material. A HSS cutting tools with -2˚,-4˚,-6˚,-8˚,-10˚,-12˚,0˚,2˚,4˚,6˚,8˚,10˚,12˚ side rake angles keeping 0˚Back rake angle  were used for turning the specimen under dry conditions. The Surface texture is measured using SJ201P, MITUTOYO Make surface roughness measuring instrument. The cutting force and feed force and thrust forces measured using turning tool dynamometer. Micro chipping and macro chipping if any were recorded using a tool makers Microscope. The results indicated that the 12˚ positive side rake angle tool shown least cutting force and 12˚ negative side rake angle tool shown highest cutting force.

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References

J.H.Lee, S.J.Lee , One –step-ahead prediction of flank wear using cutting force., International journal of Machine Tools & Manfacture 39 (1999) 1747-1760.

S.Kaldor,A.D.A.,M.O.D.,Rafael/Israel – Submitted by S.Malkin(1), Technion/Isreal , A common Denominator for Optimal Cutting tool Geometry. Annals of the CIRP Vol.35/1/1986, pages 41-44.

Tom Floyd, Diagnose Insert Failure and cure premature tool wear. Manufacturing engineering, October 1992, pages 37-38.

Dr.N.Nagaraja, Prashanth T, C.R.Prakash Rao , Effect of Nose angle on strength of cutting tool- An experimental approach. NATCOM 2006, SIT, TUMKUR.

I.S.Jawahir, P.X.Li, R.Gosh, E.L.Exner , A New parametric Approach for the Comprehensive Tool wear in Coated Grooved Tools. Annals of the CIRP Vol.44/1/1995,pages 49-54.

V.C.Venkatesh, M. Satchithanandam, a Discussion on Tool life Criteria and Total Failure causes. CIRP Vol 29/1/1980, pages19-22.

Dr. Edmund isakov, Kennametal Inc. Edited by Stephen Mraz. The mathematics of machining, American machinist, august 1996, pages 37,38

S.V.Subramanian, S.S.Ingle and D.A.R.Kay. Design of coating to minimize Crater wear, Coating Technology, 61/ (1993), pages 293-299.

M.V.Kowstubhan and P.K.Philip. On the tool life equation of TiN-coated high speed steel tools. Wear, september 11 1990,143 (1991) pages 267-275.

W.Konig, R.FRITSH, D.Kammermeier, New Approaches to Characterizing the performance of coated cutting Tools. In CIRP Vol 41/1/1992. Page no. 49-54.

John F. Kahles, Machinability Data Requirements for Advanced Machining Systems. CIRP Vol 36/2/1987, PP523-529.

W.Grzesik , Experimental investigation of the cutting temperature when turning with coated indexable inserts. International journal of Machine Tools & Manufacture 39 (1999) 355-369.

Cutting tool geometries, “Society of Manufacturing Engineers”,www. smeindia.org, pages 1-5.

M.A.Davies, Y.Chou,C.J.Evans , On Chip Morphology, Tool wear and Cutting Mechanics in finish Hard Turning, CIRP Vol 45/1/1996 PP77-82.

Milton C Shaw, Metal Cutting principles, Oxford University Press.

Geoffrey Boothroyd, Winston A. Knight, Fundamentals of machining and machine tools, Third edition, Taylor and Francis group (CRC).

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Published

2008-12-01

How to Cite

[1]
“Interpretation of Side Rake Angle with Cutting Force and Surface Finish in Turning – An Experimental Approach”, JME, vol. 3, no. 4, pp. 261–265, Dec. 2008, Accessed: Dec. 27, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/651

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