Investigation of the effect of copper content added to aluminum on cutting force in MQL turning
Ferit Ficici, Ismail Ozdemir, Thomas Grund, Thomas Lampke

TL;DR
This study examines how adding copper to aluminum affects cutting forces during machining under MQL conditions, finding that higher copper content increases hardness and cutting forces.
Contribution
The paper introduces a detailed analysis of Al–Cu alloy machinability under MQL, emphasizing the impact of copper content and cutting parameters on cutting forces.
Findings
Cutting forces increased with higher copper content, with Al-8Cu showing the highest cutting force (216.03 N).
Cutting velocity was identified as the most critical factor affecting cutting and feed forces.
SEM and EDS analysis revealed flank wear and adhered aluminum on cutting tools.
Abstract
The purpose of this study is to investigate the influence of copper content and cutting parameters on the microstructure, hardness, machinability, and cutting-force behavior of sand-cast Al–Cu alloys under minimum quantity lubrication (MQL) conditions. In this study, workpieces obtained using the sand mold casting method were tested using the minimum quantity lubrication (MQL) method on a lathe. Five different test specimens were produced by adding copper to aluminum. The microstructures were examined via optical microscope, and hardness values were determined using Brinell hardness. Due to significant production and energy costs, the MQL method was preferred for metal cutting. Cutting forces generated during the process were measured using a dynamometer and analyzed in terms of feed rate, cutting velocity, and workpiece material using a full factorial analysis. Additionally, wear…
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Taxonomy
TopicsMaterials Engineering and Processing · Aluminum Alloy Microstructure Properties · Metallurgy and Material Science
