Abstract
In the previous three chapters, regenerative chatter theory has been developed with the objective of finding solutions to chatter problems. This has involved the use of simplified models that have allowed the most significant parameters to be determined. It has been shown that any existing machining operation may be improved by reducing the width of cut, changing speed and selecting a machining configuration that best utilises the mode directions. A range of high-performance multi-tooth cutters were investigated and the reasons for their improvement determined. In this chapter, we turn our attention to the machine itself. Can machine tools be designed that have improved performance, and/or can existing machines be modified so that their performance is improved?
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References
Potter SJ, Stone BJ (1974) The calculation of the response of spindle-bearing systems to oscillating forces MTIRA research report no. 55
Stone BJ (1992) The receptances of beams, in closed form, including the effects of shear and rotary inertia. Proc IMechE 206(2):87–94
Bishop RED, Johnson DC (1960) The mechanics of vibration. Cambridge University Press, Cambridge
Stone BJ (1982) The state of the art in the measurement of the stiffness and damping of rolling element bearings. Annals of CIRP 31(2):529–538
Kraus J, Blech JJ, Braun SG (1987) In situ determination of rolling bearing stiffness and damping by modal analysis. J Vib Acoust Stress Reliab 109(3):235–240
Lee CW, Hong SW (1989) Identification of bearing dynamic coefficients by unbalance response measurements. Proc IMechE Part C J Mech Eng Sci 203(2):93–101
Tiwara R, Vyas NS (1995) Estimation of non-linear stiffness parameters of rolling element bearings from random response of rotor-bearing systems. J Sound Vib 187(2):229–239
Marsh ER, Yantek DS (1997) Experimental measurement of precision bearing dynamic stiffness. J Sound Vib 202(1):55–66
Chen JH, Lee AC (1997) Identification of linearized dynamic characteristics of rolling element bearings’. Trans ASME J Vib Acoust 119(1):60–69
Tiwara R, Lees AW, Friswell MI (2001) Identification of speed-dependant bearing parameters. J Sound Vib 254(5):967–986
Lambert RJ, Pollard A, Stone BJ (1981) Some characteristics of rolling element bearings under oscillating conditions (and their relevance to the design of spindle systems with high dynamic stiffness). MTIRA limited circulation report, vol VI, pp 1–71
Lambert RJ, Pollard A, Stone BJ (2006) Some characteristics of rolling-element bearings under oscillating conditions: Part 1 theory and rig design. Proc IMechE Part K J Multi-body Dyn 220(3):157–170
Lambert RJ, Pollard A, Stone BJ (2006) Some characteristics of rolling-element bearings under oscillating conditions: Part 2 experimental results for interference fitted taper-roller bearings. Proc IMechE Part K J Multi-body Dyn 220(3):171–179
Lambert RJ, Pollard A, Stone BJ (2006) Some characteristics of rolling-element bearings under oscillating conditions: Part 3 experimental results for clearance fitted taper-roller bearings and their relevance to the design of spindles with high dynamic stiffness. Proc IMechE Part K J Multi-body Dyn 220(3):181–190
Walford TLH (1981) Some stiffness and damping characteristics of angular contact ball bearings. Ph.D. dissertation, University of Bristol
Walford TLH, Stone BJ (1980) The measurement of the radial stiffness of rolling element bearings under oscillating conditions. J Mech Eng Sci 22(4):175–181
Walford TLH, Stone BJ (1980) Some stiffness and damping characteristics of angular contact bearings under oscillating conditions. In: 2nd International conference on vibrations in rotating machinery, Cambridge C274/80, pp 157–162
Walford TLH, Stone BJ (1983) The sources of damping in rolling element bearings under oscillating conditions. Proc IMechE Part C J Mech Eng Sci 197(4):225–232
Elsermans M, Hongerloot H, Snoeys R (1976) Damping in taper roller bearings. In: Proceedings of 16th MTDR conference, pp 223–229
Stone BJ, Andrew C (1969) Optimisation of vibration absorbers: application to complex structures. J Mech Eng Sci 11(3):221–233
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Stone, B. (2014). Structural Modifications. In: Chatter and Machine Tools. Springer, Cham. https://doi.org/10.1007/978-3-319-05236-6_4
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DOI: https://doi.org/10.1007/978-3-319-05236-6_4
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