Influence of particle velocity when propelled using N2 or N2-He mixed gas on the properties of cold-sprayed Ti6Al4V coatings
Influence of particle velocity when propelled using N2 or N2-He mixed gas on the properties of cold-sprayed Ti6Al4V coatings
Cold-spraying is a relatively new low-temperature coating technology which produces coatings by the deposition of metallic micro-particles at supersonic speed onto target substrate surfaces. This technology has the potential to enhance or restore damaged parts made of light metal alloys, such as Ti6Al4V (Ti64). Particle deposition velocity is one of the most crucial parameters for achieving high-quality coatings because it is the main driving force for particle bonding and coating formation. In this work, studies were conducted on the evolution of the properties of cold-sprayed Ti64 coatings deposited on Ti64 substrates with particle velocities ranging from 730 to 855 m/s using pure N2 and N2-He mixture as the propellant gases. It was observed that the increase in particle velocity significantly reduced the porosity level from about 11 to 1.6% due to greater densification. The coatings' hardness was also improved with increased particle velocity due to the intensified grain refinement within the particles. Interestingly, despite the significant differences in the coating porosities, all the coatings deposited within the velocity range (below and above critical velocity) achieved a high adhesion strength exceeding 60 MPa. The fractography also showed changes in the degree of dimple fractures on the particles across the deposition velocities. Finite element modelling was carried out to understand the deformation behaviour of the impacting particles and the evolutions of strain and temperature in the formed coatings during the spraying process. This work also showed that the N2-He gas mixture was a cost-effective propellant gas (up to 3-times cheaper than pure He) to deliver the high-quality Ti64 coatings.
Adhesion strength, Finite element modelling, High-pressure cold spray, N-He gas mixture, Particle velocity, Ti6Al4V powder/coating/substrate
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
Song, Xu
8fc20121-5907-4293-bd87-f5c708ee3c77
Zhai, Wei
669c2da2-e829-496e-8a37-ced21e74534b
Li, Feng
e06a32f5-0883-4a8f-a6ba-385a9df3ecfc
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Boothroyd, Chris B.
f8bd48ff-0cb8-4e6b-83fd-d65d2aa846a0
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd
18 September 2018
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
Song, Xu
8fc20121-5907-4293-bd87-f5c708ee3c77
Zhai, Wei
669c2da2-e829-496e-8a37-ced21e74534b
Li, Feng
e06a32f5-0883-4a8f-a6ba-385a9df3ecfc
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Boothroyd, Chris B.
f8bd48ff-0cb8-4e6b-83fd-d65d2aa846a0
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd
Tan, Adrian Wei Yee, Lek, Jun Yan, Sun, Wen, Bhowmik, Ayan, Marinescu, Iulian, Song, Xu, Zhai, Wei, Li, Feng, Dong, Zhili, Boothroyd, Chris B. and Liu, Erjia
(2018)
Influence of particle velocity when propelled using N2 or N2-He mixed gas on the properties of cold-sprayed Ti6Al4V coatings.
Coatings, 8 (9), [327].
(doi:10.3390/COATINGS8090327).
Abstract
Cold-spraying is a relatively new low-temperature coating technology which produces coatings by the deposition of metallic micro-particles at supersonic speed onto target substrate surfaces. This technology has the potential to enhance or restore damaged parts made of light metal alloys, such as Ti6Al4V (Ti64). Particle deposition velocity is one of the most crucial parameters for achieving high-quality coatings because it is the main driving force for particle bonding and coating formation. In this work, studies were conducted on the evolution of the properties of cold-sprayed Ti64 coatings deposited on Ti64 substrates with particle velocities ranging from 730 to 855 m/s using pure N2 and N2-He mixture as the propellant gases. It was observed that the increase in particle velocity significantly reduced the porosity level from about 11 to 1.6% due to greater densification. The coatings' hardness was also improved with increased particle velocity due to the intensified grain refinement within the particles. Interestingly, despite the significant differences in the coating porosities, all the coatings deposited within the velocity range (below and above critical velocity) achieved a high adhesion strength exceeding 60 MPa. The fractography also showed changes in the degree of dimple fractures on the particles across the deposition velocities. Finite element modelling was carried out to understand the deformation behaviour of the impacting particles and the evolutions of strain and temperature in the formed coatings during the spraying process. This work also showed that the N2-He gas mixture was a cost-effective propellant gas (up to 3-times cheaper than pure He) to deliver the high-quality Ti64 coatings.
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More information
Accepted/In Press date: 7 September 2018
Published date: 18 September 2018
Additional Information:
Funding Information:
This work was financially supported by the National Research Foundation (NRF), Rolls-Royce (RR) and Nanyang Technological University (NTU), Singapore with the research grant (M-RT3.1: Metal Cold Spray).Authors acknowledged the Facility for Analysis, Characterisation, Testing and Simulation (FACTS), Nanyang Technological University (NTU), for use of their electron microscopy facilities.
Funding Information:
Funding: This work was financially supported by the National Research Foundation (NRF), Rolls-Royce (RR) and Nanyang Technological University (NTU), Singapore with the research grant (M-RT3.1: Metal Cold Spray).
Publisher Copyright:
© 2018 by the authors.
Copyright:
Copyright 2019 Elsevier B.V., All rights reserved.
Keywords:
Adhesion strength, Finite element modelling, High-pressure cold spray, N-He gas mixture, Particle velocity, Ti6Al4V powder/coating/substrate
Identifiers
Local EPrints ID: 451456
URI: http://eprints.soton.ac.uk/id/eprint/451456
ISSN: 2079-6412
PURE UUID: 860ec590-39b7-4570-9e54-4553ba865d0b
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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:
Xu Song
Author:
Wei Zhai
Author:
Feng Li
Author:
Zhili Dong
Author:
Chris B. Boothroyd
Author:
Erjia Liu
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