Semi-Analytical Prediction of Flank Tool Wear in Orthogonal Cutting of  Aluminum

Osama Ali Kadhim; Fathi Alshamma

doi:10.31026/j.eng.2020.05.03

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Published: May 1, 2020

DOI: https://doi.org/10.31026/j.eng.2020.05.03

Keywords:

flank wear, orthogonal cutting, wear coefficient

Osama Ali Kadhim

College of Engineering - University of Baghdad

Fathi Alshamma

College of Engineering - University of Baghdad

Abstract

This study aims to model the flank wear prediction equation in metal cutting, depending on the workpiece material properties and almost cutting conditions. A new method of energy transferred solution between the cutting tool and workpiece was introduced through the flow stress of chip formation by using the Johnson-Cook model. To investigate this model, an orthogonal cutting test coupled with finite element analysis was carried out to solve this model and finding a wear coefficient of cutting 6061-T6 aluminum and the given carbide tool.

Article received: 14/6/2019

Article accepted: 21/10/2019

Article published: 1/5/2020

How to Cite

“Semi-Analytical Prediction of Flank Tool Wear in Orthogonal Cutting of Aluminum” (2020) Journal of Engineering, 26(5), pp. 38–46. doi:10.31026/j.eng.2020.05.03.

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Vol. 26 No. 5 (2020): Journal of Engineering

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Articles

How to Cite

“Semi-Analytical Prediction of Flank Tool Wear in Orthogonal Cutting of Aluminum” (2020) Journal of Engineering, 26(5), pp. 38–46. doi:10.31026/j.eng.2020.05.03.

Semi-Analytical Prediction of Flank Tool Wear in Orthogonal Cutting of Aluminum

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