MODEL ORDER REDUCTION METHODS FOR COUPLED MACHINE TOOL MODELS

  • 1TU Chemnitz, Faculty of Mathematics, Chemnitz, Germany, Chemnitz, DE
  • 2TU Dresden, Institute of Solid Mechanics, Chair of Dynamics and Mechanism Design, Dresden, Germany, Dresden, DE
  • 3Max Planck Institute for Dynamics of Complex Technical Systems, Magdeburg, Germany, Magdeburg, DE

Abstract

Thermal effects are the most dominant source for displacements in machine tools and thus work-piece inaccuracies during the manufacturing process. A promising strategy to meet the ever-increasing accuracy requirements is the use of predictive models for, e.g., parameter and design op-timizations or online correction of the thermally induced error at the tool center point (TCP) in the pro-duction process. However, these techniques require fast but precise simulations. The need for high model accuracy is in direct contrast to the desired real-time capabilities. Model order reduction (MOR) is an attractive tool to overcome this problem. A modeling toolchain, which is tailored for the effective construction of fast and accurate models is proposed and demonstrated, emphasizing the involved MOR step.

Recommended articles

A NOVEL DESIGN CONCEPT FOR A THERMALLY STABLE LINEAR SCALE USING TWO DIFFERENT MATERIALS

C. Brecher, T. H. Lee, D. Zontar, T. Gotthardt, A. Schmetz, F. Tzanetos, H. Gim, S. Oh
Keywords: Linear scale | Hybrid material | Thermal Behavior | Carbon fiber reinforced plastic