Article: Effect of cutting edge radius on 'burnishing-like' mechanism in micromachining Journal: International Journal of Precision Technology (IJPTECH) 2018 Vol.8 No.1 pp.85 - 103 Abstract: In micro-machining, when undeformed chip thickness (a) becomes smaller than the size of tool edge radius (r), the cutting edge radius effect arises by transforming the cutting mechanism from concentrated shear deformation into an extrusion-like behaviour. To analyse the edge radius effect, the governing process parameter is identified as the ratio of a/r. With variation of a/r, 'extrusion-like' finishing zone was identified for Brass and Mg alloy by considering the machined surface integrity, µ-chip morphology and machined surface finishing (R<SUB align="right"><SMALL>a</SMALL></SUB>). Moreover, 'dirt-like' chip formation could be misleading as "no chip formation" at extreme small a/r value due to the inability of human eye to clearly observe such chips. Finally, 'burnishing-like' finishing is identified in the 'narrow a/r zone' by considering the surface integrity and improvement of machined surface roughness profile. This novel study will help to produce superior quality finishing without requiring post processing of the machined surface. Inderscience Publishers - linking academia, business and industry through research

Title: Effect of cutting edge radius on 'burnishing-like' mechanism in micromachining

Authors: M. Azizur Rahman; Mustafizur Rahman; A. Senthil Kumar; Muhammad Raihan Amrun

Addresses: Department of Mechanical Engineering, National University of Singapore (NUS), 10 Kent Ridge Crescent, S117576, Singapore ' Department of Mechanical Engineering, National University of Singapore (NUS), 10 Kent Ridge Crescent, S117576, Singapore ' Department of Mechanical Engineering, National University of Singapore (NUS), 10 Kent Ridge Crescent, S117576, Singapore ' Department of Mechanical Engineering, National University of Singapore (NUS), 10 Kent Ridge Crescent, S117576, Singapore

Abstract: In micro-machining, when undeformed chip thickness (a) becomes smaller than the size of tool edge radius (r), the cutting edge radius effect arises by transforming the cutting mechanism from concentrated shear deformation into an extrusion-like behaviour. To analyse the edge radius effect, the governing process parameter is identified as the ratio of a/r. With variation of a/r, 'extrusion-like' finishing zone was identified for Brass and Mg alloy by considering the machined surface integrity, µ-chip morphology and machined surface finishing (R_a). Moreover, 'dirt-like' chip formation could be misleading as "no chip formation" at extreme small a/r value due to the inability of human eye to clearly observe such chips. Finally, 'burnishing-like' finishing is identified in the 'narrow a/r zone' by considering the surface integrity and improvement of machined surface roughness profile. This novel study will help to produce superior quality finishing without requiring post processing of the machined surface.

Keywords: micromachining; cutting edge radius effect; 'extrusion-like' finishing; 'burnishing-like' mechanism; chip formation.

DOI: 10.1504/IJPTECH.2018.094082

International Journal of Precision Technology, 2018 Vol.8 No.1, pp.85 - 103

Accepted: 17 Mar 2018
Published online: 14 Aug 2018 *

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Title: Effect of cutting edge radius on 'burnishing-like' mechanism in micromachining

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