Wear behaviour of coated carbide tools during machining of Ti6Al4V aerospace alloy associated with strong built up edge formation

In the machining of Ti alloys, it is challenging to optimise the cutting tool life and process productivity. It is not a trivial task to find an efficient strategy to improve the tool life during machining of Ti alloys using surface engineered tooling. In the case of rough turning operation with str...

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Bibliographic Details
Published inSurface & coatings technology Vol. 313; pp. 319 - 327
Main Authors Chowdhury, M.S.I., Chowdhury, S., Yamamoto, K., Beake, B.D., Bose, B., Elfizy, A., Cavelli, D., Dosbaeva, G., Aramesh, M., Fox-Rabinovich, G.S., Veldhuis, S.C.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.03.2017
Elsevier BV
Subjects
Built up edge
Carbide tools
Coating effects
Cutting wear
High temperature
Liquid tribo-films
Lubricating properties
Lubrication
Machining
Mechanical properties
Protective coatings
Self lubrication
Ti6Al4V
TiAlN
TiB2
Titanium
Titanium alloys
Titanium base alloys
Titanium diboride
Tool life
Tool wear
Tooling
Turning (machining)
Wear
X ray photoelectron spectroscopy
Titanium
Liquid tribo-films
TiB2
TiAlN
Ti6Al4V
Machining
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Summary:In the machining of Ti alloys, it is challenging to optimise the cutting tool life and process productivity. It is not a trivial task to find an efficient strategy to improve the tool life during machining of Ti alloys using surface engineered tooling. In the case of rough turning operation with strong built up edge formation we establish that it can be achieved through the application of self-lubricating TiB2 PVD coating. It has been shown that the application of a TiB2 coating results in tool life improvement by over 60% compared to the uncoated tool and over 70% compared to the TiAlN coated tool. Comprehensive characterization of the coated vs. uncoated cutting tool wear performance was performed using optical 3D imaging, SEM/EDX and XPS methods. Various micro-mechanical characteristics of the TiB2 coating were evaluated. It was determined that tool life improvement using the TiB2 coating is mostly related to the ability of the coating layer to provide self-lubrication effect and in this way, very efficiently dissipate frictional energy. The coating also exhibited less substrate exposure as it fails indicating better protection of the coated tool surface. This is of particular importance for machining of materials like Ti, which have strong sticking intensity. It has been demonstrated that the TiB2 coating combines beneficial micro-mechanical characteristics and self-lubricating properties due to the formation of B-O tribo-films on the tool surface under operation. These tribo-films serve as a liquid lubricant formed in-situ on the tool surface under the elevated temperature of cutting. The formation of liquid tribo-films is an effective way to address intensive adhesive interaction followed by built up edge formation at the tool/chip interface, which is typical for roughing operations during Ti machining. •TiB2 coating improves tool life during rough turning of Ti alloy with intensive buildup edge formation•This is mostly related to self-lubrication effect and better surface protection•Comprehensive characterization of TiB2 coating was performed•Generation of B-Ox tribo-films which are liquid at high temperatures of cutting minimises adhesive interaction at the tool/chip interface
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2017.01.115