Tribological and Corrosion Performance of Electrodeposited Nickel Composite Coatings

In order to enhance the corrosion resistance of mooring chain, the composite coatings are carried out on the surface of 22MnCrNiMo steel for mooring chain by double-pulsed electrodeposition technology using centrifugal force in the rotating device. The microstructure and anti-corrosion performance of the composite coatings have been investigated experimentally. This paper mainly focuses on the experimental work to determine the structural characteristics and corrosion resistance of composite coatings in the presence of nano-SiC. The results show that the presence of nano-SiC has a significant effect on the preparation of composite coating during the process. The surface of the coating becomes compact and smooth at a moderate concentration of nano-SiC particles. Furthermore, the best corrosion resistance of the composite coatings can be obtained when the concentration of nano-SiC particles is 2.0[Formula: see text]g.L[Formula: see text] after salt spray treatment.

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Excellent anti-corrosion performance of epoxy composite coatings filled with novel N-doped carbon nanodots

European Polymer Journal ◽

10.1016/j.eurpolymj.2021.110957 ◽

2021 ◽

pp. 110957

Author(s):

Shaoxiang Li ◽

Feifan Du ◽

Yanxu Lin ◽

Yu Guan ◽

WenJuan Qu ◽

...

Keyword(s):

Epoxy Composite ◽

Composite Coatings ◽

Carbon Nanodots ◽

Corrosion Performance

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Enhancing the anti-corrosion performance of ZIF-8-based coatings via microstructural optimization

New Journal of Chemistry ◽

10.1039/c9nj05998a ◽

2020 ◽

Vol 44 (7) ◽

pp. 2941-2946 ◽

Cited By ~ 2

Author(s):

Mu Zhang ◽

Yi Liu

Keyword(s):

Composite Coatings ◽

Hydrothermal Growth ◽

Buffer Layers ◽

Corrosion Performance ◽

Solvothermal Treatment ◽

Microstructural Optimization

Herein, ZIF-8–ZnAl–NO3 LDH composite coatings showing superior anti-corrosion performance were prepared by the facile hydrothermal growth of ZnAl–NO3 LDH buffer layers, followed by solvothermal treatment with 2-methylimidazole.

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Electrodeposited Nickel- and Nickel-Tungsten-CNT Composite Coatings

ECS Meeting Abstracts ◽

10.1149/ma2013-01/25/989 ◽

2013 ◽

Keyword(s):

Composite Coatings ◽

Electrodeposited Nickel ◽

Nickel Tungsten

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Tribological and corrosion performance of epoxy resin composite coatings reinforced with graphene oxide and fly ash cenospheres

Journal of Applied Polymer Science ◽

10.1002/app.50042 ◽

2020 ◽

Vol 138 (11) ◽

pp. 50042

Author(s):

Jianchao Li ◽

Ping Chen ◽

Yuan Wang

Keyword(s):

Graphene Oxide ◽

Fly Ash ◽

Epoxy Resin ◽

Resin Composite ◽

Composite Coatings ◽

Corrosion Performance ◽

Epoxy Resin Composite ◽

Fly Ash Cenospheres

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Investigation on corrosion performance of multilayer Ni-P/TiO2 composite coating on steel

Science and Engineering of Composite Materials ◽

10.1515/secm-2014-0134 ◽

2016 ◽

Vol 23 (3) ◽

pp. 309-314

Author(s):

M. Edwin Sahayaraj ◽

J.T. Winowlin Jappes ◽

I. Siva ◽

N. Rajini

Keyword(s):

Corrosion Resistance ◽

Mild Steel ◽

Corrosion Behavior ◽

Steel Substrate ◽

Composite Coatings ◽

Multilayer Coating ◽

Electroless Nickel ◽

Corrosion Mechanism ◽

Corrosion Performance ◽

Electroless Ni

AbstractElectroless nickel coating treatment improves the corrosion resistance of mild steel. This work aims at studying the corrosion behavior of electroless Ni-P/TiO2 composite and multilayer coatings applied to the mild steel substrate as their as-plated state and furnace annealed at various temperatures and compared both the coatings’ corrosion performance. The corrosion behavior of the deposits was evaluated by potentiodynamic polarization studies in 3.5 wt% sodium chloride solution. The results showed that the corrosion resistance of the multilayer coating was two times higher compared to the composite coatings. Further, the corrosion mechanism was discussed in terms of microstructure, phase transformation, grain size, and microstrain.

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Forming Mechanism of Composite Coating with Nano-Particles and its Wear Resistance

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.281.500 ◽

2013 ◽

Vol 281 ◽

pp. 500-504 ◽

Cited By ~ 1

Author(s):

Xue Song Li ◽

Long Sheng He ◽

You Yang

Keyword(s):

Composite Coating ◽

Composite Coatings ◽

Pure Copper ◽

Copper Substrate ◽

Nano Particles ◽

Nano Composite ◽

Forming Mechanism ◽

Nickel Coatings ◽

Electrodeposited Nickel ◽

Nanometer Particles

Ni-SiC nano composite coatings were prepared on pure copper substrate. The surface morphology and distribution of nanometer particles of the composite coatings were observed by scanning electron microscope (SEM), micro-hardness of coatings was tested by HXD-1000 microharder. The results showed that microstructure of Ni-SiC nano composite coating is different from that of electrodeposited nickel coatings. Its electrodepositing process abided by the principal of adsorption. By adding nanometer particles, the structure of composite coatings can be effectively fined, microhardness of composite coatings is improved apparently by comparing with that of electrodeposited nickel coatings. Abrasion resistance of Ni-SiC nano composite coatings is excellent.

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The Effect of the Formation of Superelastic NiTi Phase on Static and Dynamic Corrosion Performance of Ni-P Coating

Solids ◽

10.3390/solids2030018 ◽

2021 ◽

Vol 2 (3) ◽

pp. 278-292

Author(s):

Zhi Li ◽

Zoheir Farhat

Keyword(s):

Corrosion Resistance ◽

Composite Coatings ◽

Corrosion Performance ◽

Abrasive Particles ◽

Aggressive Environment ◽

Corrosion Rates ◽

Niti Phase ◽

Order Of Magnitude ◽

Steel Substrates ◽

Static Corrosion

The addition of superelastic NiTi particles is a great benefit to the toughness of the Ni-P coating. Nonetheless, NiTi nanopowder costs 10 times more than Ti nanopowder. Therefore, in the present study, to reduce the cost, Ni-P-NiTi composite coatings were prepared on AISI 1018 steel substrates by the electroless incorporation of Ti nanoparticles into Ni-P followed by the annealing of Ni-P-Ti coatings. The effect of the formation of a superelastic NiTi phase on static and dynamic corrosion performance was investigated. It was found that the annealed Ni-P-Ti coating (i.e., Ni-P-NiTi coating) has much higher static corrosion resistance than the as-deposited Ni-P coating. The dynamic corrosion rates in the absence of abrasive particles are 10 times higher than the static corrosion rates of the coatings. The dynamic corrosion rates in the presence of abrasive particles are one order of magnitude higher than the dynamic corrosion rates in the absence of abrasive particles. The formation of a superelastic NiTi phase considerably improved the static and dynamic corrosion performance of the Ni-P coating. In the absence of abrasive particles under flowing condition, the dynamic corrosion resistance of the annealed Ni-P-Ti coating (i.e., Ni-P-NiTi coating) is 19 times higher than that of the as-deposited Ni-P coating. In the most aggressive environment (in the presence of abrasive particles), the dynamic corrosion resistance of the annealed Ni-P-Ti coating (i.e., Ni-P-NiTi coating) is four times higher than that of the as-deposited Ni-P coating. The annealed Ni-P-Ti coating (i.e., Ni-P-NiTi coating) can be used in applications where high corrosion resistance is required, especially in an extremely aggressive environment.

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