Salvato in:
Dettagli Bibliografici
Autori principali: Rupasinghe, Nuwan, Michel, Sebastian, Baumann, Andreas, Gerken, Julian, Gülde, Samuel, Biermann, Dirk, Eberhard, Peter
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2508.02333
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866918478658666496
author Rupasinghe, Nuwan
Michel, Sebastian
Baumann, Andreas
Gerken, Julian
Gülde, Samuel
Biermann, Dirk
Eberhard, Peter
author_facet Rupasinghe, Nuwan
Michel, Sebastian
Baumann, Andreas
Gerken, Julian
Gülde, Samuel
Biermann, Dirk
Eberhard, Peter
contents Ejector deep hole drilling offers great potential to utilize the typical advantages of deep hole drilling processes on conventional machining centers in a cost-effective and resource-efficient manner. However, maintaining reliable chip evacuation and stable process conditions often relies on high flow volumes of metalworking fluid, resulting in considerable energy consumption in industrial settings. Therefore, to analyze the highly sophisticated chip evacuation dynamics of the process, two flow-optimized drill heads and a reference drill head were evaluated with smoothed particle hydrodynamics simulation using experimentally obtained chip shapes. In addition, modified drill heads were additively manufactured and experimentally investigated to validate the numerical results and to determine the positive effect on the necessary fluid flow for a stable ejector drilling process. The modifications aim to improve chip evacuation by reducing vortex formation and optimizing flow conditions near the cutting zone. Therefore, the minimum volume flow required for a stable drilling process without chip clogging is reduced, leading to an energy-efficient sustainable ejector drilling process.
format Preprint
id arxiv_https___arxiv_org_abs_2508_02333
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Numerical and Experimental Evaluation of Chip Evacuation and Lubricant Flow using Optimized Drill Heads for Ejector Deep Hole Drilling
Rupasinghe, Nuwan
Michel, Sebastian
Baumann, Andreas
Gerken, Julian
Gülde, Samuel
Biermann, Dirk
Eberhard, Peter
Fluid Dynamics
Computational Physics
Ejector deep hole drilling offers great potential to utilize the typical advantages of deep hole drilling processes on conventional machining centers in a cost-effective and resource-efficient manner. However, maintaining reliable chip evacuation and stable process conditions often relies on high flow volumes of metalworking fluid, resulting in considerable energy consumption in industrial settings. Therefore, to analyze the highly sophisticated chip evacuation dynamics of the process, two flow-optimized drill heads and a reference drill head were evaluated with smoothed particle hydrodynamics simulation using experimentally obtained chip shapes. In addition, modified drill heads were additively manufactured and experimentally investigated to validate the numerical results and to determine the positive effect on the necessary fluid flow for a stable ejector drilling process. The modifications aim to improve chip evacuation by reducing vortex formation and optimizing flow conditions near the cutting zone. Therefore, the minimum volume flow required for a stable drilling process without chip clogging is reduced, leading to an energy-efficient sustainable ejector drilling process.
title Numerical and Experimental Evaluation of Chip Evacuation and Lubricant Flow using Optimized Drill Heads for Ejector Deep Hole Drilling
topic Fluid Dynamics
Computational Physics
url https://arxiv.org/abs/2508.02333