Mathematical Modeling of Coolant Flow in Discontinuous Drilling Processes with Temperature Coupling

Abstract: Nickel-based alloys, like Inconel 718, are widely used in industrial applications due to their high-temperature strength and high toughness. However, machining such alloys is a challenging task because of high thermal loads at the cutting edge and thus extensive tool wear is expected. Consequently, the development of new process strategies is needed. We will consider the discontinuous drilling process with coolant. The main idea is to interrupt the drilling process in order to let the coolant to flow around th… Show more

“…Consequently, the Navier-Stokes equations are transformed into a rotational frame of reference adopting the tool rotation. To counter the complex geometry of the twist drill, including internal cooling channels and chip flutes, the tool is modelled via the fictitious boundary method describing the fluid-solid interaction [24].…”

Flow Visualisation and Evaluation Studies on Metalworking Fluid Applications in Manufacturing Processes—Methods and Results

“…Consequently, the Navier-Stokes equations are transformed into a rotational frame of reference adopting the tool rotation. To counter the complex geometry of the twist drill, including internal cooling channels and chip flutes, the tool is modelled via the fictitious boundary method describing the fluid-solid interaction [24].…”

Flow Visualisation and Evaluation Studies on Metalworking Fluid Applications in Manufacturing Processes—Methods and Results

Investigation of ultrasonic-assisted drilling temperature of SiC _p /Al composites