Study of mechanical character and corrosion properties of La2O3 nanoparticle reinforced Ni-W composite coatings

In this paper, Ni-W/La2O3 composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La2O3 content in the plating solution on the structure and properties of the plated layers were evaluated. We find that nano-La2O3 can improve the situation of struct...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Vol. 652; p. 129799
Main Authors: Cheng, Xinyu, He, Yi, Song, Ruxia, Li, Hongjie, Liu, Bo, Zhou, Huilian, Yan, Liping
Format: Journal Article
Language:English
Published: Elsevier B.V 05.11.2022
Subjects:
corrosion
Corrosion resistance
crystallites
Electrodeposition
electroplating
friction
Nano-lanthanum oxide
Ni-W/La2O3 composite coating
Nickel-tungsten composite coating
Nickel-tungsten composite coating
Corrosion resistance
Nano-lanthanum oxide
Electrodeposition
Ni-W/La2O3 composite coating
ISSN:0927-7757
Online Access:Get full text
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Abstract In this paper, Ni-W/La2O3 composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La2O3 content in the plating solution on the structure and properties of the plated layers were evaluated. We find that nano-La2O3 can improve the situation of structural defects such as microcracks in the coating and serve to increase the thickness of the coating. Meanwhile, the Ni-W/La2O3 (4 g‧L−1) composite coating has the smallest crystallite size (6.52 nm). Compared with the Ni-W composite coating, the microhardness of Ni-W/La2O3 (4 g‧L−1) composite coating increased by 38.61 % (the microhardness value is 682.30 Hv), while the friction coefficient decreased by 46.57 % (the average coefficient of friction is 0.246) and the corrosion rate decreased by 81.54 % (the corrosion rate is 0.0498 mm‧a−1). [Display omitted] •The hardness value of Ni-W/La2O3 (4 g‧L−1) composite coating increased by 38.61 %.•The COF of Ni-W/La2O3 (4 g‧L−1) composite coating decreased by 46.57 %.•The corrosion rate of Ni-W/La2O3 (4 g‧L−1) composite coating decreased by 81.54 %.
AbstractList In this paper, Ni-W/La2O3 composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La2O3 content in the plating solution on the structure and properties of the plated layers were evaluated. We find that nano-La2O3 can improve the situation of structural defects such as microcracks in the coating and serve to increase the thickness of the coating. Meanwhile, the Ni-W/La2O3 (4 g‧L−1) composite coating has the smallest crystallite size (6.52 nm). Compared with the Ni-W composite coating, the microhardness of Ni-W/La2O3 (4 g‧L−1) composite coating increased by 38.61 % (the microhardness value is 682.30 Hv), while the friction coefficient decreased by 46.57 % (the average coefficient of friction is 0.246) and the corrosion rate decreased by 81.54 % (the corrosion rate is 0.0498 mm‧a−1). [Display omitted] •The hardness value of Ni-W/La2O3 (4 g‧L−1) composite coating increased by 38.61 %.•The COF of Ni-W/La2O3 (4 g‧L−1) composite coating decreased by 46.57 %.•The corrosion rate of Ni-W/La2O3 (4 g‧L−1) composite coating decreased by 81.54 %.
In this paper, Ni-W/La₂O₃ composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La₂O₃ content in the plating solution on the structure and properties of the plated layers were evaluated. We find that nano-La₂O₃ can improve the situation of structural defects such as microcracks in the coating and serve to increase the thickness of the coating. Meanwhile, the Ni-W/La₂O₃ (4 g‧L⁻¹) composite coating has the smallest crystallite size (6.52 nm). Compared with the Ni-W composite coating, the microhardness of Ni-W/La₂O₃ (4 g‧L⁻¹) composite coating increased by 38.61 % (the microhardness value is 682.30 Hv), while the friction coefficient decreased by 46.57 % (the average coefficient of friction is 0.246) and the corrosion rate decreased by 81.54 % (the corrosion rate is 0.0498 mm‧a⁻¹).
ArticleNumber 129799
Author He, Yi
Song, Ruxia
Liu, Bo
Li, Hongjie
Cheng, Xinyu
Yan, Liping
Zhou, Huilian
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  givenname: Ruxia
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  givenname: Hongjie
  surname: Li
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  organization: State Key Lab of Oil & Gas Reservoir Geology and Exploitation (Southwest Petroleum University), Chengdu 610500, China
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  givenname: Huilian
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  organization: State Key Lab of Oil & Gas Reservoir Geology and Exploitation (Southwest Petroleum University), Chengdu 610500, China
– sequence: 7
  givenname: Liping
  surname: Yan
  fullname: Yan, Liping
  organization: State Key Lab of Oil & Gas Reservoir Geology and Exploitation (Southwest Petroleum University), Chengdu 610500, China
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Keywords Nickel-tungsten composite coating
Corrosion resistance
Nano-lanthanum oxide
Electrodeposition
Ni-W/La2O3 composite coating
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Snippet In this paper, Ni-W/La2O3 composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La2O3 content in the...
In this paper, Ni-W/La₂O₃ composite coatings were successfully prepared by pulse electrodeposition technology. The effect of the nano-La₂O₃ content in the...
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StartPage 129799
SubjectTerms corrosion
Corrosion resistance
crystallites
Electrodeposition
electroplating
friction
Nano-lanthanum oxide
Ni-W/La2O3 composite coating
Nickel-tungsten composite coating
Title Study of mechanical character and corrosion properties of La2O3 nanoparticle reinforced Ni-W composite coatings
URI https://dx.doi.org/10.1016/j.colsurfa.2022.129799
https://www.proquest.com/docview/2718283277
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