Sage Journals: Discover world-class research

Abstract

The volumetric error of a measurement-processing integrated machine tool was studied by using a complicated surface workpiece grinding machine as a special example. The model of volumetric error was established by using homogeneous transformation matrices, and the effect of volumetric error on coordinate transformation between the measurement and the processing work station was analysed. Various error components of the machine tool were measured with a laser interferometer and an electronic level, and the volumetric error was compensated by external software. With a ball bar system and grinding experiments, the volumetric position accuracy was tested after compensation. The experiment results illustrated that both the volumetric position accuracy and machining precision were improved dramatically after compensation.

Keywords

measurement-processing integrated machine volumetric error homogeneous transformation matrices error compensation

Get full access to this article

View all access options for this article.

References

Ramesh

Mannan

M. A.

Poo

A. N.

Error compensation in machine tools - a review. Part I: Geometric, cutting-force induced and fixture dependent errors. Int. J. Mach. Tools Manuf. , 2000, 40, 1235–1256.

Leete

D. L.

Automatic compensation of alignment errors in machine tools. Int. J. Mach. Tools Manuf. , 1961, 1(4), 293–324.

French

Humphries

S. H.

Compensation for backlash and alignment errors in a numerically controlled machine-tool by a digital computer program. In Proceedings of the 8th International MTDR Conference, Manchester, 1967, pp. 167–172.

Schultschik

The components of volumetric accuracy. Ann. CIRP , 1977, 25(1), 223–228.

Ferreira

P. M.

Liu

C. R.

An analytical quadratic model for the geometric error of a machine tool. J. Manuf. Syst. , 1986, 5(1), 51–62.

Chen

J. S.

Yuan

Compensation of non-rigid body kinematic effect of a machine center. Trans. NAMRI , 1992, 20, 325–329.

Yang

Pan , Geometric and thermal errors modeling of NC machine tool (in Chinese). Mach. Des. Manuf. , 1998, 5, 31–33.

Wang

Identification method for errors of machining center based on volumetric error model (in Chinese). Chin. J. Mech. Eng. , 2002, 7(38), 121–125.

Wang

A universal synthetic volumetric error model of multi-axis NC machine tool based on kinematics (in Chinese). J. Natl Univ. Def. Technol. , 2001, 4(23), 45–50.

10.

Lee

E. S.

Suh

S. H.

Shon

J. W.

A comprehensive method for calibration of volumetric positioning accuracy on CNC machines. Int. J. Adv. Manuf. Technol. , 1998, 14, 43–49.

11.

Slocum

A. H.

Precision machine design , 1992 (Prentice-Hall, Inc., New Jersey).

12.

Lee

J. H.

Liu

Yang

S.-H.

Accuracy improvement of miniaturized machine tool: Geometric error modeling and compensation. Int. J. Mach. Tools Manuf. , 2006, 46, 1508–1516.

13.

Rahman

Heikkala

Lappalainen

Modeling, measurement and error compensation of multi-axis machine tools. Part I: Theory. Int. J. Mach. Tools Manuf. , 2000, 40, 1535–1546.

14.

Lei

W. T.

Hsu

Y. Y.

Error measurement of five-axis CNC machine with 3D probe-ball. J. Mater. Process. Technol. , 2003, 139(2), 127–133.

Volumetric Error Modelling,Measurement,and Compensation for an Integrated Measurement-Processing Machine Tool

Abstract

Keywords

Get full access to this article

References