Studies on wear behavior of AlTiN-coated WC tool and machined surface quality in micro endmilling of Inconel 718

The recent developments in science and technology lead to the miniaturization of components in fields like aerospace, biomedical, and electronics. Due to the small tool dimensions and premature tool failure, the tool wear behavior is complicated in micro endmilling of difficult-to-cut materials. In...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology 2020-09, Vol.110 (1-2), p.291-307
Main Authors: Anand Krishnan, N., Mathew, Jose
Format: Article
Language:English
Subjects:
Adhesion
Avionics
Biomedical materials
CAE) and Design
Chip formation
Chipping
Computer-Aided Engineering (CAD
Cutting edge radius
Cutting wear
End milling
Engineering
Hand tools
Industrial and Production Engineering
Machining
Mechanical Engineering
Media Management
Miniaturization
Nickel base alloys
Original Article
Plowing
Rounding
Size effects
Superalloys
Surface properties
Surface roughness
Teeth
Tool life
Tool wear
Tungsten carbide
Workpieces
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Summary:The recent developments in science and technology lead to the miniaturization of components in fields like aerospace, biomedical, and electronics. Due to the small tool dimensions and premature tool failure, the tool wear behavior is complicated in micro endmilling of difficult-to-cut materials. In this work, the influence of size effect on wear behavior of AlTiN-coated WC micro endmill and its effects on surface roughness, burr formation, and chip formation during machining on Inconel 718 was studied. It was found that adhesion, delamination, chipping, cutting edge rounding, and flank wear are the significant wear behaviors on AlTiN-coated WC micro endmill during machining of Inconel 718. Workpiece adhesion was observed to be severe in the plowing dominant region. The tool life with 6-μm feed/tooth was found to be 60% more than that with 0.5-μm feed/tooth. The tool failure criteria based on the width of flank wear and cutter edge radius were observed close to 27 and 9 μm, respectively. The feed/tooth adjacent to cutting edge radius was observed as the most favorable cutting condition for good tool life and surface quality.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-020-05875-w