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Dynamic cutting force on-line estimation using a 4-electrode cylindrical capacitive displacement sensor mounted on a high speed milling spindle
Il-Hae Kim
The Journal of Mechanical Science and Technology, vol. 22, no. 5, pp.914-923, 2008
Abstract : In this paper, a 4-electrode cylindrical capacitance displacement sensor (CCDS) is presented as an indirect force sensor
for a high speed milling spindle. A rotor-bar system for the magnetic exciter is designed to investigate the tool deflection
with respect to the applied cutting force. To extract the deflection signal from the CCDS, the dynamic orbital
motion at each rotating speed of spindle is predetermined and then subtracted from the CCDS signal. The CCDS signal
is also used as a reference sync signal. The rotor-bar system is designed so that the rotor affects the tool-spindle dynamics
only as an added mass but does not contribute to the bending property. The additional effect of the rotor mass in the
exciter setup is compensated for by an experimental modeling. The cutting force can be estimated by using modified
CCDS signals and FRF. Cutting experiments are conducted to show reliable performances of the proposed approach by
high speed machining applications.
Keyword : Cutting force online measurement; 4-electrode cylindrical capacitive displacement sensor (CCDS); High speed milling spindle |
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