Abstract
Chapter 1 provides an overview of discrete part production by machining and summarizes the existing challenges. The importance of considering the process dynamics for parameter selection is highlighted and the corresponding textbook focus areas, including the frequency response function and force model, are identified. The chapter concludes with a brief review of prior contributions to machining research and a roadmap for the textbook.
You have to learn the rules of the game. And then you have to play better than anyone else.
—Albert Einstein
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Notes
- 1.
This quote is attributed to the twelfth-century philosopher Bernard of Chartres (Bernardus Carnotensis) [1].
References
Retrieved April, 2018, from http://en.wikipedia.org/wiki/Standing_on_the_shoulders_of_giants.
Taylor, F. W. (1906). On the art of cutting metals. Transactions of the ASME, 28, 31–248.
Merchant, M. E. (1950). Metal cutting research—Theory and practice, machining—Theory and practice. Am Soc Met, 9, 5–44.
Komanduri, R. (1993). Machining and grinding: A historical review of the classical papers. Applied Mechanics Reviews, 46(3), 80–132.
Koenisgberger, F., & Sabberwal, A. (1961). An investigation into the cutting force pulsations during milling operations. International Journal of Machine Tool Design and Research, 1, 15–33.
Tlusty, J., & Polacek, M. (1957). Besipiele der behandlung der selbsterregten Schwingung der Werkzeugmaschinen, FoKoMa. Munchen: Hanser Verlag.
Tobias, S. A., & Fishwick, W. (1958). Theory of regenerative machine tool chatter. The Engineer, London, 258.
Tlusty, J., & Polaceck, M. (1963). The stability of machine tools against self-excited vibrations in machining. International Research in Production Engineering, 1, 465–474.
Merrit, H. (1965). Theory of self-excited machine tool chatter. Journal of Engineering for Industry, 87(4), 447–454.
Arnold, R. (1946). The mechanism of tool vibration in the cutting of steel. Proceedings of the Institution of Mechanical Engineers, 54, 261–284.
Tlusty, J. (1978). Analysis of the state of research in cutting dynamics. Annals of the CIRP, 27(2), 583–589.
Smith, S., & Tlusty, J. (1991). An overview of modeling and simulation of the milling process. Journal of Engineering for Industry, 113(2), 169–175.
Smith, S., & Tlusty, J. (1993). Efficient simulation programs for chatter in milling. Annals of the CIRP, 42(1), 463–466.
Ehmann, K., Kapoor, S., DeVor, R., & Lazoglu, I. (1997). Machining process modeling: A review. Journal of Manufacturing Science and Engineering, 119(4B), 655–663.
Smith, S., & Tlusty, J. (1997). Current trends in high-speed machining. Journal of Manufacturing Science and Engineering, 119(4B), 664–666.
Merchant, M. E. (1998). An interpretive look at twentieth century research on modeling of machining. Machining Science and Technology, 2(2), 157–163.
Altintas, Y., & Weck, M. (2004). Chatter stability of metal cutting and grinding. Annals of the CIRP, 53(2), 619–642.
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Schmitz, T.L., Smith, K.S. (2019). Introduction. In: Machining Dynamics. Springer, Cham. https://doi.org/10.1007/978-3-319-93707-6_1
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DOI: https://doi.org/10.1007/978-3-319-93707-6_1
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