Akademik Veri Yönetim Sistemi
INTERNATIONAL JOURNAL OF MODELLING AND SIMULATION, 2024 (ESCI)
This paper simulates the temperature-dependent dynamic viscosity of the cutting fluid's flow, thus analysing the approximated real behaviour in a simplified model. In order to take the heat transfer between the workpiece and the cutting fluid into account, the Finite Element Method (FEM) was bidirectionally coupled. A mathematical formula for determining the dynamic viscosity of the cutting fluid as a function of temperature was used for the temperature evolution. Simulations were performed using the standard k-omega-SST, k-omega-SST-SAS, and k-omega-SST-DES turbulence models for comparison. The results show that the influence of dynamic viscosity and temperature plays an important role and should therefore not be neglected in process simulations. For example, increasing the temperature from T = 25 degrees C to T = 150 degrees C reduced viscosity by 95%. The modelling approach presented here is suitable for future analysis simulations and can be applied not only to different drill geometries but also to numerous machining processes where dynamic viscosity plays an important role.