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Microstructure, mechanical and tribological properties of cold sprayed Ti6Al4V–CoCr composite coatings

Microstructure, mechanical and tribological properties of cold sprayed Ti6Al4V–CoCr composite coatings
Microstructure, mechanical and tribological properties of cold sprayed Ti6Al4V–CoCr composite coatings
Metal-matrix composite (MMC) coatings are advanced materials, composed of two or more phases that can be tailored based on the industrial needs such as lightweight and wear-resistance. Cold spray (CS) technology is highly suitable to develop these MMC coatings as it is a low temperature deposition method, which does not involve particle melting, hence retaining the original properties of the materials. Ti–6Al–4V (Ti64) is a common alloy used in aerospace applications owing to its lightweight and high yield strength. Recently, cold sprayed Ti64 coatings have shown promise to repair damaged or enhance surfaces of Ti components. However, there are still several issues with cold sprayed Ti64 coatings, such as relatively high porosity level and low wear-resistance. To solve these, a novel approach is to incorporate CoCr (ASTM F75) as reinforcing metal alloy particles into the Ti64 matrix to form a Ti64–CoCr composite coating. Pure Ti64 and pure CoCr coatings were also deposited as a comparison. The Ti64–CoCr composite coating achieved low porosity level (0.9%), high hardness (434 HV) and high wear resistance (1.7 × 10−4 mm3/Nm) compared to the Ti64 coatings. These properties were obtained while maintaining the original phases of the feedstock Ti64 and CoCr powders and achieving adhesion strength above 60 MPa. A 20 nm thick Ti–Co interdiffusion layer was also observed at the interface of CoCr and Ti64 particles under TEM. These results showed that Ti64–CoCr composite coating is a promising lightweight and wear resistant metallic coating for aerospace application.
CoCr powder/coating, Composite, Fracture behaviour, High-pressure cold spray, Mechanical and tribological properties, Microstructure, Ti6Al4V powder/coating/substrate
1359-8368
Tan, Adrian Wei Yee
3d644676-a520-4f41-b7f1-410d1c46689d
Lek, Jun Yan
682d96a3-2e23-4a4c-9c4d-c4c10ca1276f
Sun, Wen
38403bb0-2b99-4958-b9ee-39b4016d0968
Bhowmik, Ayan
d5756d8b-4fd7-4272-987f-35901f169cf6
Marinescu, Iulian
eb6fb154-1605-451d-a446-f3148bb0da0b
Buenconsejo, Pio J.
9ef6b1d4-0892-47bb-8c0a-f1eb32eede66
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd
Tan, Adrian Wei Yee
3d644676-a520-4f41-b7f1-410d1c46689d
Lek, Jun Yan
682d96a3-2e23-4a4c-9c4d-c4c10ca1276f
Sun, Wen
38403bb0-2b99-4958-b9ee-39b4016d0968
Bhowmik, Ayan
d5756d8b-4fd7-4272-987f-35901f169cf6
Marinescu, Iulian
eb6fb154-1605-451d-a446-f3148bb0da0b
Buenconsejo, Pio J.
9ef6b1d4-0892-47bb-8c0a-f1eb32eede66
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd

Tan, Adrian Wei Yee, Lek, Jun Yan, Sun, Wen, Bhowmik, Ayan, Marinescu, Iulian, Buenconsejo, Pio J., Dong, Zhili and Liu, Erjia (2020) Microstructure, mechanical and tribological properties of cold sprayed Ti6Al4V–CoCr composite coatings. Composites Part B: Engineering, 202, [108280]. (doi:10.1016/j.compositesb.2020.108280).

Record type: Article

Abstract

Metal-matrix composite (MMC) coatings are advanced materials, composed of two or more phases that can be tailored based on the industrial needs such as lightweight and wear-resistance. Cold spray (CS) technology is highly suitable to develop these MMC coatings as it is a low temperature deposition method, which does not involve particle melting, hence retaining the original properties of the materials. Ti–6Al–4V (Ti64) is a common alloy used in aerospace applications owing to its lightweight and high yield strength. Recently, cold sprayed Ti64 coatings have shown promise to repair damaged or enhance surfaces of Ti components. However, there are still several issues with cold sprayed Ti64 coatings, such as relatively high porosity level and low wear-resistance. To solve these, a novel approach is to incorporate CoCr (ASTM F75) as reinforcing metal alloy particles into the Ti64 matrix to form a Ti64–CoCr composite coating. Pure Ti64 and pure CoCr coatings were also deposited as a comparison. The Ti64–CoCr composite coating achieved low porosity level (0.9%), high hardness (434 HV) and high wear resistance (1.7 × 10−4 mm3/Nm) compared to the Ti64 coatings. These properties were obtained while maintaining the original phases of the feedstock Ti64 and CoCr powders and achieving adhesion strength above 60 MPa. A 20 nm thick Ti–Co interdiffusion layer was also observed at the interface of CoCr and Ti64 particles under TEM. These results showed that Ti64–CoCr composite coating is a promising lightweight and wear resistant metallic coating for aerospace application.

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More information

Accepted/In Press date: 4 July 2020
e-pub ahead of print date: 8 August 2020
Published date: 1 December 2020
Additional Information: Funding Information: This work was financially supported by the Industry Alignment Fund (IAF) , Rolls-Royce (RR) and Nanyang Technological University (NTU) , Singapore with the research grant: ARMS 1.1 Advanced Metalized Coatings using Cold Spray. The authors acknowledged the Facility for Analysis, Characterisation, Testing and Simulation (FACTS), NTU, Singapore, for the use of their electron microscopy and X-ray facilities. Funding Information: This work was financially supported by the Industry Alignment Fund (IAF), Rolls-Royce (RR) and Nanyang Technological University (NTU), Singapore with the research grant: ARMS 1.1 Advanced Metalized Coatings using Cold Spray. The authors acknowledged the Facility for Analysis, Characterisation, Testing and Simulation (FACTS), NTU, Singapore, for the use of their electron microscopy and X-ray facilities. Publisher Copyright: © 2020 Elsevier Ltd Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
Keywords: CoCr powder/coating, Composite, Fracture behaviour, High-pressure cold spray, Mechanical and tribological properties, Microstructure, Ti6Al4V powder/coating/substrate

Identifiers

Local EPrints ID: 451460
URI: http://eprints.soton.ac.uk/id/eprint/451460
DOI: doi:10.1016/j.compositesb.2020.108280
ISSN: 1359-8368
PURE UUID: bbcf5ede-4c43-4bae-9997-baaee8bcf641

Catalogue record

Date deposited: 29 Sep 2021 16:45
Last modified: 17 Mar 2024 12:49

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Contributors

Author: Adrian Wei Yee Tan
Author: Jun Yan Lek
Author: Wen Sun
Author: Ayan Bhowmik
Author: Iulian Marinescu
Author: Pio J. Buenconsejo
Author: Zhili Dong
Author: Erjia Liu

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