Characterization and machining performance of laser-textured chevron shaped tools coated with AlTiN and AlCrN coatings

Owing to increased demands of more efficient cutting tools for machining difficult to cut materials and environment friendly cutting operations, laser textured tools have become necessary. The characterization and machining studies with such laser textured tools coated with hard ceramic coatings are...

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Bibliographic Details
Published in:Surface & coatings technology 2018-01, Vol.334, p.344-356
Main Authors: Mishra, Sarvesh Kumar, Ghosh, Sudarsan, Aravindan, Sivanandam
Format: Article
Language:English
Subjects:
AlTiN and AlCrN
Cathodic coating (process)
Ceramic coatings
Ceramic glazes
Ceramic tools
Coated textured tools
Cutting force
Cutting tool materials
Cutting tools
Cutting wear
Derivative cutting (IMP-µC)
Diffusion
Laser beam texturing
Lasers
Nanosecond pulses
Static diffusion couple test
Studies
Surface analysis (chemical)
Surface roughness
Titanium base alloys
Tool wear
Turning (machining)
Wear mechanisms
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Summary:Owing to increased demands of more efficient cutting tools for machining difficult to cut materials and environment friendly cutting operations, laser textured tools have become necessary. The characterization and machining studies with such laser textured tools coated with hard ceramic coatings are the prime motivation for this present work. The main aspect of the study is to evaluate two different PVD coated (AlTiN and AlCrN) laser textured tools. In the first stage, laser textured tools were prepared with novel chevron shaped textures on tool rake face using nanosecond pulse laser. This stage is followed by PVD coatings of AlTiN and AlCrN coatings by cathodic arc evaporation (CAE) technique. Coating characterization studies were conducted considering coating morphology, surface roughness, coating elemental analysis and phase analysis of coated and coated textured tools. The performance of the different tools thus manufactured was evaluated by carrying out suitable turning experiments on cylindrical Ti6Al4V work material under dry cutting environment. Machining results were evaluated in terms of cutting force, flank wear progress, rake surface analysis, and chip underside study. Further, static diffusion couple test (SDCT) has been conducted to understand diffusion wear mechanism in plain and textured tools. A new concept of derivative cutting or interfacial multipoint micro-cutting (IMP-μC) on chip underside surface due to texture patterns and a reduction of derivative cutting due to coatings on the textured tools have been proposed. •Novel chevron textured WC/Co tools with AlTiN and AlCrN were fabricated first time.•Ti6Al4V machining with the prepared textured and textured coated tools.•Chip underside study was conducted to understand derivative cutting mechanism.•Formation of CoO due ot laser improved coating adhesion and machining results.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2017.11.061