Prediction of temperature induced shape deviations in dry milling

Prediction of temperature induced shape deviations in dry milling

Kategorien Konferenz (reviewed)
Jahr 2015
Autoren Denkena, B., Schmidt, A., Maaß, P., Niederwestberg, D., Niebuhr, C., Vehmeyer, J.:
Veröffentlicht in 15th CIRP Conference on Modelling of Machining Operations, Procedia CIRP 31 (2015), S. 340 – 345.

In this paper a model for a Simulation based prediction of temperature induced shape deviations in dry milling is presented. A closed Loop between Boolean material removal, process forces, heat flux and thermoelastic deformation is established. Therefore, an efficient dexel based machining simulation is extended by a contact zone analysis to model the local workpiece load. Based on the computed contact zone the cutting forces and heat flux are calculated using a semi-empirical process model. For a detailed consideration of the loads they are discretized and localized on the dexel-represented workpiece surface. A projection of the localized workpiece loads on the boundary of the finite element domain, taking into account the Boolean material removal during the process, allows the calculation of the current temperature and deformation of the workpiece. By transforming These thermomechanical characteristics back to the dexel-model a consideration in the machining Simulation is possible. An extended contact zone analysis is developed for the prediction of the localized shape deviations. Finally, the results of the simulation are compared with measured data. The comparison shows that workpiece temperatures,workpiece Deformation and shape deviations in different workpiece areas are predicted accurately.

DOI 10.1016/j.procir.2015.03.072