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Novel CrAlYN/CrN nanoscale multilayer PVD coatings produced by the combined high power impulse magnetron sputtering/unbalanced magnetron sputtering technique for environmental protection of γ-TiAl alloys

Novel CrAlYN/CrN nanoscale multilayer PVD coatings produced by the combined high power impulse magnetron sputtering/unbalanced magnetron sputtering technique for environmental protection of γ-TiAl alloys
Novel CrAlYN/CrN nanoscale multilayer PVD coatings produced by the combined high power impulse magnetron sputtering/unbalanced magnetron sputtering technique for environmental protection of γ-TiAl alloys
CrAlYN/CrN coatings utilising nanoscale multilayer structure with a typical bi-layer thickness of 4.2 nm have been deposited on light-weight Ti–45Al–8Nb alloys known as γ-TiAl. The surface pre-treatment was carried out by bombardment with Cr1+ ions generated by High Power Impulse Magnetron Sputtering, (HIPIMS) discharge, whereas the nanoscale multilayer CrAlYN/CrN coating was deposited by Unbalanced Magnetron Sputtering (UBM).

Scanning Transmission Electron Microscopy (STEM), revealed that the coating/substrate interface was extremely clean and sharp. Large areas of coating growing epitaxially were observed. STEM–Energy Dispersive Spectroscopy (EDS) profile analyses further showed that, during the HIPIMS ion bombardment, Cr was implanted into the substrate to a depth of 5 nm. Adhesion critical load values as high as LC = 37 N have been measured in scratch adhesion tests. Impact tests brought further evidence for strong bonding.

For coated γ-TiAl alloys, thermogravimetric quasi-isothermal oxidation tests in air at 750 °C after 1000 h exposure showed four times smaller weight gain compared to the uncoated material. In sulphidation tests after 1000 h exposure to aggressive H2/H2S/H2O atmosphere the CrAlYN/CrN protected γ-TiAl alloys showed a weight gain reduced by factor of four as compared to the uncoated substrate. High temperature pin-on-disc tests revealed that the friction coefficient reduces from 0.56 at room temperature to 0.4 at 630 °C.
high power impulse magnetron sputtering, gamma titanium aluminides, oxidation, wear, high temperature corrosion
0257-8972
2702-2708
Hovsepian, P.Eh.
049c05a9-5ae8-49f1-ab21-27808f0b6607
Ehiasarian, A.P.
e516cffb-3efc-4808-a7ba-09de32ce5fb6
Braun, R.
1ccd2501-556d-44e6-a421-d7bd42769253
Walker, J.C.
b300eafd-5b0a-4cf5-86d2-735813b04c6f
Du, H.
e29dc02d-7ced-41a4-be56-9c70089e1756
Hovsepian, P.Eh.
049c05a9-5ae8-49f1-ab21-27808f0b6607
Ehiasarian, A.P.
e516cffb-3efc-4808-a7ba-09de32ce5fb6
Braun, R.
1ccd2501-556d-44e6-a421-d7bd42769253
Walker, J.C.
b300eafd-5b0a-4cf5-86d2-735813b04c6f
Du, H.
e29dc02d-7ced-41a4-be56-9c70089e1756

Hovsepian, P.Eh., Ehiasarian, A.P., Braun, R., Walker, J.C. and Du, H. (2010) Novel CrAlYN/CrN nanoscale multilayer PVD coatings produced by the combined high power impulse magnetron sputtering/unbalanced magnetron sputtering technique for environmental protection of γ-TiAl alloys. Surface and Coatings Technology, 204 (16-17), 2702-2708. (doi:10.1016/j.surfcoat.2010.02.021).

Record type: Article

Abstract

CrAlYN/CrN coatings utilising nanoscale multilayer structure with a typical bi-layer thickness of 4.2 nm have been deposited on light-weight Ti–45Al–8Nb alloys known as γ-TiAl. The surface pre-treatment was carried out by bombardment with Cr1+ ions generated by High Power Impulse Magnetron Sputtering, (HIPIMS) discharge, whereas the nanoscale multilayer CrAlYN/CrN coating was deposited by Unbalanced Magnetron Sputtering (UBM).

Scanning Transmission Electron Microscopy (STEM), revealed that the coating/substrate interface was extremely clean and sharp. Large areas of coating growing epitaxially were observed. STEM–Energy Dispersive Spectroscopy (EDS) profile analyses further showed that, during the HIPIMS ion bombardment, Cr was implanted into the substrate to a depth of 5 nm. Adhesion critical load values as high as LC = 37 N have been measured in scratch adhesion tests. Impact tests brought further evidence for strong bonding.

For coated γ-TiAl alloys, thermogravimetric quasi-isothermal oxidation tests in air at 750 °C after 1000 h exposure showed four times smaller weight gain compared to the uncoated material. In sulphidation tests after 1000 h exposure to aggressive H2/H2S/H2O atmosphere the CrAlYN/CrN protected γ-TiAl alloys showed a weight gain reduced by factor of four as compared to the uncoated substrate. High temperature pin-on-disc tests revealed that the friction coefficient reduces from 0.56 at room temperature to 0.4 at 630 °C.

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More information

e-pub ahead of print date: 12 February 2010
Published date: 15 May 2010
Keywords: high power impulse magnetron sputtering, gamma titanium aluminides, oxidation, wear, high temperature corrosion
Organisations: nCATS Group

Identifiers

Local EPrints ID: 204979
URI: http://eprints.soton.ac.uk/id/eprint/204979
ISSN: 0257-8972
PURE UUID: ed2768d7-e8a0-4776-a0a0-f53ce07bf8f9

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Date deposited: 05 Dec 2011 14:40
Last modified: 14 Mar 2024 04:33

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Contributors

Author: P.Eh. Hovsepian
Author: A.P. Ehiasarian
Author: R. Braun
Author: J.C. Walker
Author: H. Du

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