论文信息 - Modelling of Cutting Process Impact on Machine Tool Thermal Behaviour Based on Experimental Data

Modelling of Cutting Process Impact on Machine Tool Thermal Behaviour Based on Experimental Data

Abstract Achieving high workpiece accuracy is a long-term goal of machine tool designers. There are many causes of workpiece inaccuracy, with thermal errors being the most dominant. An indirect compensation (using predictive models) is a promising strategy to reduce thermal errors without increasing machine tool cost. The most significant drawback is that the majority of applied models presume machines operate under load-free conditions without any reference to cutting processes. This article aims to extend the model validity by accounting for cutting process influence and verify the model during experiments involving different tools and cutting parameters. Moreover, several compensation model structures are considered.

Otakar Horejš | Martin Mareš | O. Horejš | M. Mareš

[1] John C. Ziegert,et al. Neural network thermal error compensation of a machining center , 2000 .

[2] Otakar Horejš,et al. Real-Time Compensation of Machine Tool Thermal Error Including Cutting Process , 2015 .

[3] Christian Brecher,et al. Compensation of thermo-dependent machine tool deformations due to spindle load: investigation of the optimal transfer function in consideration of rough machining , 2011, Prod. Eng..

[4] Christian Brecher,et al. Thermal issues in machine tools , 2012 .

[5] Jenq-Shyong Chen,et al. A study of thermally induced machine tool errors in real cutting conditions , 1996 .

[6] Christian Brecher,et al. Compensation of Thermo-elastic Machine Tool Deformation Based on Control internal Data , 2004 .

[7] Derek G. Ford,et al. The use of thermal imaging, temperature and distortion models for machine tool thermal error reduction , 1998 .