Affiliation:
1. National Ilan University
Abstract
The main purpose of this paper is to predict the tip's surface temperature of milling stainless steel using chamfered main cutting sharp worn tools. The cutting temperature model incorporating tool wear factor and using the variations of shear and friction plane areas occurring in tool worn situations are presented in this paper. The heat generate on elementary cutting tools are calculated by using the frictional cutting forces. Comparing the experimental forces measured by the dynamometer, that is good agreement. The carbide tip’s temperature calculates by loading the friction forces and tip’s parameters and the temperature distribution are solved by finite element analysis method.
Publisher
Trans Tech Publications, Ltd.
Reference9 articles.
1. H.S. Kim and K.F. Ehmann, A cutting force model for face milling operations, Int. J. of Machine Tool & Manufacturing, Design, Research and Application, 33 (5), pp.651-673, (1993).
2. C. E. Leshock, Y.C. Shin, Investigation on cutting temperature in turning by a tool–work thermocouple technique, ASME, J. Manuf. Sci. Eng. 119, p.502~506, (1997).
3. A. O Tay.,M. G. Stevenson, G. de Vahl Davis, and P.L.B. Oxley, A numerical method for calculating temperature distributions in machining from force and shear angle measurements, Int. J. Machine Tool Des. Res. 16, 1976, p.335~341, (1976).
4. C.S. Chang, Prediction of cutting forces in milling stainless steels using chamfered main cutting edge tool, J. of Mechanics, pp.145-155, (2005).
5. K. Nakayama, M.C. Shaw, and R.C. Breuer, Relationship between forces, temperatures Built-up Edge and surface finish, Annals of CIRP 14, pp.211-233, (1966).
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1 articles.
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