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Abstract

The objective of this work is to enhance the accuracy of a double-column machining centre by compensating thermal errors using software. Characteristics of the thermal errors were analysed by carrying out a sequence of tests. Temperature measurements were carried out with thermocouples. Capacitance probes were used to measure the thermal errors. A multiple linear regression-based technique was applied to correlate the thermal errors to the temperature distribution. The signals of the measured temperatures were sent to a central processing unit board inside a computer numerical controller. The predicted thermal errors, based on the regression model, were sent to the controller for real-time error compensation. Test results show that a 90 per cent reduction in thermal errors has been achieved after compensation.

Keywords

double-column machining centre thermal error thermocouple compensation

References

Bryan

J. B.

International status of thermal error research. Ann. CIRP, 1990, 39(2), 645–656.

Jedrzejewski

Modrzycki

A new approach to modelling thermal behaviour of a machine tool under service conditions. Ann. CIRP, 1992, 41(1), 455–458.

Venugopal

Barash

Thermal effects on the accuracy of numerically controlled machine tools. Ann. CIRP, 1986, 35(1), 255–258.

Chen

J. S.

Yuan

J. X.

S. M.

Real-time compensation for time-variant volumetric errors on a machining center. Trans. ASME J, Engng Industry, 1993, 115, 472–479.

Chen

J.-S.

A study of thermally induced machine tool errors in real cutting conditions. Int. J. Mach. Tools Mfe, 1996, 36(12), 1401–1411.

Lee

J.-H.

Yang

S.-H.

Statistical optimization and assessment of a thermal error model for CNC machine tools. Int. J. Mach. Tools Mfe, 2002, 42, 147–155.

Pahk

H. J.

Lee

S. W.

Thermal error measurement and real time compensation system for the CNC machine tools incorporating the spindle thermal error and the feed axis thermal error. Int. J. Advd. Mfg Technol., 2002, 20, 487–494.

Yang

Dynamic modeling for machine tool thermal error compensation. Trans. ASME, J. Mfg Sci. Engng, 2003, 125, 245–254.

Huang

S.-C.

Analysis of a model to forecast thermal deformation of ballscrew feed drive systems. Int. J. Mach. Tools Mfe, 1995, 35(8), 1099–1104.

10.

C.-H.

Kung

Y.-T.

Thermal analysis for the feed drive system of a CNC machine center. Int. J. Mach. Tools Mfe, 2003, 43, 1521–1528.

11.

Yuan

The real-time error compensation technique for CNC machining systems. Mechatronics, 1998, 8, 359–380.

Thermal Analysis and Compensation of a Double-Column Machining Centre

Abstract

Abstract

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References