Izenburua
A tribological characterisation of Ti-48Al-2Cr-2Nb and Ti-6Al-4V alloys with dry, flood, and MQL lubricantsBeste instituzio
Lund UniversityAdvanced Assisted Manufacturing Solutions
Bertsioa
Bertsio argitaratua
Eskubideak
© 2022 The AuthorsSarbidea
Sarbide irekiaArgitaratzailearen bertsioa
https://doi.org/10.1016/j.cirpj.2022.11.016Non argitaratua
CIRP Journal of Manufacturing Science and Technology Vol. 41Lehenengo orria
501Azken orria
523Argitaratzailea
ElsevierGako-hitzak
gamma titanium allumide
Ti-6Al-4V
Tribology
AlTiSiN coatings ... [+]
Ti-6Al-4V
Tribology
AlTiSiN coatings ... [+]
gamma titanium allumide
Ti-6Al-4V
Tribology
AlTiSiN coatings
Pin-on-cylinder testing
Friction and Adhesion
Coating wear [-]
Ti-6Al-4V
Tribology
AlTiSiN coatings
Pin-on-cylinder testing
Friction and Adhesion
Coating wear [-]
Laburpena
The development of cutting tools requires the knowledge of tribological phenomena at the tool – workpiece contact area. This knowledge is in dearth particularly for difficult-to-cut alloys like gamma ... [+]
The development of cutting tools requires the knowledge of tribological phenomena at the tool – workpiece contact area. This knowledge is in dearth particularly for difficult-to-cut alloys like gamma titanium aluminide (gamma – TiAl alloys). Therefore, this article is an attempt to plug the gap and aid the development of cutting tools for gamma – TiAl alloys. To this end, friction, adhesion, and coating wear between AlTiSiN coated cemented carbide tool and Ti-48Al-2Cr-2Nb (Near lamellar), Ti-48Al-2Cr-2Nb (Duplex), and the most used titanium alloy of Ti-6Al-4V (alpha – beta) were experimentally derived. A Pin-on-Cylinder (PoC) tribometer with contact conditions corresponding to commercial machining conditions was used with dry, flood(EML), and two MQL lubricants. Additionally, the heat generated and partitioned between the pin and workpiece was quantified to assess the thermal exposure to the coatings. The results showed that Ti-6Al-4V had approximately 50% higher apparent friction coefficient than the Ti-48Al-2Cr-2Nb alloys. Interestingly, the friction coefficients of Ti-48Al-2Cr-2Nb alloys were nearly consistent across the entire test matrix. Notably, the change in the microstructure from near lamellar to duplex did not elicit any qualitative or quantitative change in the friction profile of Ti-48Al-2Cr-2Nb alloys. The contact pressure proved to be the statistically significant property influencing friction evolution inversely for Ti-6Al-4V alloy and directly for Ti-48Al-2Cr-2Nb alloys. The results showed higher probability of coating wear in dry conditions as opposed to the flood and MQL lubricants. [-]
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