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Influence of metal working fluid on chip formation and mechanical loads in orthogonal cutting

Berend Denkena, Alexander Krödel, Lars Ellersiek

2021The International Journal of Advanced Manufacturing Technology26 citationsDOIOpen Access PDF

Abstract

Abstract Metal working fluids are used in machining processes of many hard-to-cut materials to increase tool life and productivity. Thereby, the metal working fluids act on the thermal and on the mechanical loads of the tool. The changing mechanical loads can mostly be attributed to the changing friction between rake face and chip and changes in the chip formation, e.g., the contact length between rake face and chip. However, analyzing those effects is challenging, since a detailed look at the chip formation process is prevented by the metal working fluid. In this paper, a novel planing test rig is presented, which enables high-speed recordings of the machining process and process force measurements while using metal working fluids. Experiments reveal that process forces are reduced with increasing pressure of the metal working fluid. However, the average friction coefficient only changes slightly, which indicates that the reduced process forces are mainly the result of reduced contact lengths between rake face and chip.

Topics & Concepts

RakeChip formationMachiningChipCutting fluidMaterials scienceMechanical engineeringProcess (computing)Rake angleMetal workingFace (sociological concept)Tool wearEngineeringMetallurgyComputer scienceElectrical engineeringSociologyOperating systemSocial scienceAdvanced machining processes and optimizationTunneling and Rock MechanicsAdvanced Machining and Optimization Techniques
Influence of metal working fluid on chip formation and mechanical loads in orthogonal cutting | Litcius