Abstract
The chip form is one of the four criteria which determine the machinability. An undisturbed chip flow is especially important in automated processes in order to spare the human operator the tedious and often dangerous task of monitoring the chip flow (which would tie him to the machine tool and the process; man-environment criterion).
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This procedure leads to a forged perlitic structure. It is used for precipitation hardened perlitic-ferritic steels (AFP steels).
References
CIRP.: Dictionary of Production Engineering, vol. 2. Springer, Berlin (2004)
Degner, W., Lutze, H., Smejkal, E.: Spanende Formung: Theorie, Berechnung, Richtwerte [Cutting: theory, calculation, recommended values], 13th edn. Carl Hanser, München, Wien (1993)
Eisenhüttenleute, V.D. (ed.): Stahl-Eisen-Liste [Steel–iron–list], 8th edn. Stahleisen, Düsseldorf (1990)
Hintze, W.: Personal correspondence (2009)
Müller, M., Hintze, W.: Werkzeugentwicklung zur Spanbeherrschung beim Drehen und Bohren [Tool development to control the chip formation in turning and drilling], pp. 331–344. VDI-Berichte 988 (1993)
Nakayama, K.: Personal correspondence (1992)
Okushima, K., Minato, K.: On the behaviour of chip in steel cutting. Bull. Jpn. Soc. Mech. Eng. 2(5), 58–64 (1959)
Patzke, M.: Einfluss der Randzone auf die Zerspanbarkeit von Schmiedeteilen [Influence of surface zones on the machinability of forged components]. Dr.-Ing. Dissertation, University of Hannover (1987)
Winkler, H.: Zerspanbarkeit von niedriglegierten Kohlenstoffstählen nach gesteuerter Abkühlung [Machinability of low alloyed carbon steels after controlled cooling]. Dr.-Ing. Dissertation, University of Hannover (1982)
Further Reading
Crafoord, R., Kaminski, J., Lagerberg, S., Ljungkrona, O., Wretland, A.: Chip control in tube turning using a high-pressure water jet. Proc. Inst. Mech. Eng. [B], J. Eng. Manuf. 218(8), 761–767 (1999)
Jawahir, I.S., van Lutterfelt, C.A.: Recent developments in chip control research and applications. Ann. CIRP 42(2), 659–693 (1993)
Klocke, F.: Manufacturing Processes: Cutting. Springer, Berlin (2009)
Klocke, F.: Manufacturing Processes 2: Grinding, Honing, Lapping. Springer, Berlin (2005)
Nakayama, K., Arai, M.: Comprehensive Chip form classification based on the cutting mechanism. Ann. CIRP 41(1), 71–74 (1992)
Strenkowski, J.S., Athavale, S.M.: A partially constrained Eulerian orthogonal cutting model for chip control tools. J. Manuf. Sci. Eng. 119(4B), 681–688 (1997)
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Tönshoff, H.K., Denkena, B. (2013). Chip Control. In: Basics of Cutting and Abrasive Processes. Lecture Notes in Production Engineering. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-33257-9_3
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DOI: https://doi.org/10.1007/978-3-642-33257-9_3
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