Effect of substrate surface roughness on microstructure and mechanical properties of cold-sprayed Ti6Al4V coatings on Ti6Al4V substrates
Effect of substrate surface roughness on microstructure and mechanical properties of cold-sprayed Ti6Al4V coatings on Ti6Al4V substrates
Surface condition, especially surface roughness of substrates, critically influences the adhesion of cold-sprayed titanium alloy coatings. To study this, Ti6Al4V (Ti64) coatings were deposited on Ti64 substrates with increasing surface roughness (Ra) from 0.05 µm (polished surface) to 5.4 µm (water-jet cut surface). It was found that the substrate surface roughness did not significantly affect the porosity, hardness and coating surface roughness because these properties were dependent on the deposition parameters such as propellant gas pressure and temperature and nozzle traverse speed. The adhesion test results showed that smoother substrate surfaces improved the coating bond strength of the cold-sprayed Ti64 coatings from about 7.1 MPa (Ra: 5.4 µm, interface failure) to 68.7 MPa (Ra: 0.05 µm, glue failure). The fracture characteristics of the debonded coating/substrate interfaces revealed that there were more adiabatic shear-induced craters observed on the smoother substrate surfaces. Finite element modeling also showed that the substrate surface features (i.e., peaks and valleys) possibly prevented the intimate contact between the particles and substrate and thus induced the non-uniform distributions of temperature, stress and strain at the particle/substrate interface.
finite element analysis, high-pressure cold spray, mechanical properties, substrate surface condition, Ti6Al4V powder/coating/substrate
1959-1973
Tan, Adrian Wei Yee
3d644676-a520-4f41-b7f1-410d1c46689d
Sun, Wen
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Bhowmik, Ayan
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Lek, Jun Yan
682d96a3-2e23-4a4c-9c4d-c4c10ca1276f
Song, Xu
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Zhai, Wei
669c2da2-e829-496e-8a37-ced21e74534b
Zheng, Han
8e8dc7c4-565c-46a0-b41d-3ed7bba5ea7b
Li, Feng
e06a32f5-0883-4a8f-a6ba-385a9df3ecfc
Marinescu, Iulian
eb6fb154-1605-451d-a446-f3148bb0da0b
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd
30 October 2019
Tan, Adrian Wei Yee
3d644676-a520-4f41-b7f1-410d1c46689d
Sun, Wen
38403bb0-2b99-4958-b9ee-39b4016d0968
Bhowmik, Ayan
d5756d8b-4fd7-4272-987f-35901f169cf6
Lek, Jun Yan
682d96a3-2e23-4a4c-9c4d-c4c10ca1276f
Song, Xu
8fc20121-5907-4293-bd87-f5c708ee3c77
Zhai, Wei
669c2da2-e829-496e-8a37-ced21e74534b
Zheng, Han
8e8dc7c4-565c-46a0-b41d-3ed7bba5ea7b
Li, Feng
e06a32f5-0883-4a8f-a6ba-385a9df3ecfc
Marinescu, Iulian
eb6fb154-1605-451d-a446-f3148bb0da0b
Dong, Zhili
34e9695c-bbd2-41e5-8be9-1748412c4fcc
Liu, Erjia
f0eb8f01-7079-4d8a-9687-f00250b31ffd
Tan, Adrian Wei Yee, Sun, Wen, Bhowmik, Ayan, Lek, Jun Yan, Song, Xu, Zhai, Wei, Zheng, Han, Li, Feng, Marinescu, Iulian, Dong, Zhili and Liu, Erjia
(2019)
Effect of substrate surface roughness on microstructure and mechanical properties of cold-sprayed Ti6Al4V coatings on Ti6Al4V substrates.
Journal of Thermal Spray Technology, 28 (8), .
(doi:10.1007/s11666-019-00926-5).
Abstract
Surface condition, especially surface roughness of substrates, critically influences the adhesion of cold-sprayed titanium alloy coatings. To study this, Ti6Al4V (Ti64) coatings were deposited on Ti64 substrates with increasing surface roughness (Ra) from 0.05 µm (polished surface) to 5.4 µm (water-jet cut surface). It was found that the substrate surface roughness did not significantly affect the porosity, hardness and coating surface roughness because these properties were dependent on the deposition parameters such as propellant gas pressure and temperature and nozzle traverse speed. The adhesion test results showed that smoother substrate surfaces improved the coating bond strength of the cold-sprayed Ti64 coatings from about 7.1 MPa (Ra: 5.4 µm, interface failure) to 68.7 MPa (Ra: 0.05 µm, glue failure). The fracture characteristics of the debonded coating/substrate interfaces revealed that there were more adiabatic shear-induced craters observed on the smoother substrate surfaces. Finite element modeling also showed that the substrate surface features (i.e., peaks and valleys) possibly prevented the intimate contact between the particles and substrate and thus induced the non-uniform distributions of temperature, stress and strain at the particle/substrate interface.
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More information
Submitted date: 4 June 2019
Published date: 30 October 2019
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 (ARMS 1.1 Advanced metalized coatings using cold spray project).
Publisher Copyright:
© 2019, ASM International.
Copyright:
Copyright 2019 Elsevier B.V., All rights reserved.
Keywords:
finite element analysis, high-pressure cold spray, mechanical properties, substrate surface condition, Ti6Al4V powder/coating/substrate
Identifiers
Local EPrints ID: 451455
URI: http://eprints.soton.ac.uk/id/eprint/451455
ISSN: 1059-9630
PURE UUID: c0b6d76b-598c-4831-ba5e-85d9098f5330
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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:
Wen Sun
Author:
Ayan Bhowmik
Author:
Jun Yan Lek
Author:
Xu Song
Author:
Wei Zhai
Author:
Han Zheng
Author:
Feng Li
Author:
Iulian Marinescu
Author:
Zhili Dong
Author:
Erjia Liu
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