The influence of SiC and Al2O3 micrometric particles on the electrodeposition of ZnNi films and the obtainment of ZnNi–SiC and ZnNi–Al2O3 electrocomposite coatings from slightly acidic solutions

Tulio, Paulo Cezar; Rodrigues, S; Carlos, I.A.

doi:10.1016/j.surfcoat.2007.04.084

Cited by 34 publications

(29 citation statements)

References 32 publications

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“…However, SiC reduced crystallite size of the Zn-Ni alloy. Tulio et al [8] investigated the influence of micro SiC and Al 2 O 3 particles on the Zn-Ni properties from a slightly acidic solution. It was evident from their study that SiC decreased the Ni/Zn ratio in the coatings while Al 2 O 3 particles did not affect the Ni content in the coating.…”

Section: Introductionmentioning

confidence: 99%

Zn–Ni–Al2O3 nano-composite coatings prepared by sol-enhanced electroplating

Ghaziof

Gao

2015

Applied Surface Science

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Section: Introductionmentioning

confidence: 99%

Zn–Ni–Al2O3 nano-composite coatings prepared by sol-enhanced electroplating

Ghaziof

Gao

2015

Applied Surface Science

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“…ZnCo electrodeposition is known to be anomalous, in that the less noble element, Zn, is deposited in preference to the nobler one, Co. Several hypotheses have been proposed to account for anomalous electrodeposition [34][35][36][37][38][39][40][41][42][43][44]. In some cases, suspended ceramic particles are known to interfere with anomalous electrodeposition [5,45,46].…”

Section: Introductionmentioning

confidence: 99%

Effects of SiC and Al2O3 particles on the electrodeposition of Zn, Co and ZnCo. I. Electrodeposition in the absence of SiC and Al2O3

Tulio

Carlos

2008

J Appl Electrochem

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Electrodeposition of Zn, Co and ZnCo from acid sulfate solutions onto steel was investigated in this first part of a study of the effects of SiC or Al 2 O 3 particles on these processes and the formation of ZnCo-SiC and ZnCo-Al 2 O 3 electrocomposites. Zn electrodeposition shows a well-defined pre-bulk region, where the hydrogen evolution reaction (HER) and Zn underpotential deposition (upd) compete. Zn bulk electrodeposition begins with primary nucleation and diffusion-controlled growth, strongly dependent on conditions favoring previous Zn upd against HER. It is assumed that this first bulk process takes place over the upd Zn. Zn bulk electrodeposition is followed by secondary nucleation and growth. Co electrodeposition begins with a slow Co 2þ ðaqÞ reduction in parallel with HER, followed by a faster Co 2þ ðaqÞ reduction. Zn 2þ ðaqÞ strongly hinders the initial Co 2þ ðaqÞ reduction. The ZnCo and Zn electrodeposition curves are initially similar, retaining features of pre-bulk and bulk Zn electrodeposition.

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“…However, the protective characteristics of the galvanic alloys often need additional improvement, especially in more aggressive media. A possible way to extend the service life of the zinc is obtaining composite coatings by using different inorganic (oxides, ceramics, carbides, such as ZrO 2 , TiO 2 , SiO 2 , Fe 2 O 3 , SiC etc) [10][11][12][13][14] or polymeric micro-(nano)particles, which generally also exhibit high corrosion resistance [15][16][17][18][19]. One serious problem could be the possible agglomeration of the particles in the electrolyte, and their sedimentation on the bottom.…”

Section: Introductionmentioning

confidence: 99%

Influence of Organic Additives and of Stabilized Polymeric Micelles on the Metalographic Structure of Nanocomposite Zn and Zn-Co Coatings

Boshkov¹

2017

Port. Electrochim. Acta

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The peculiarities of the metallographic structure of electrodeposited nanocomposite polymeric modified Zn and Zn-Co (1 wt.%) alloy coatings are described and discussed. These coatings are obtained from usual electrochemical baths for Zn and Zn-Co alloys, but with the addition of stabilized polymeric micelles (SPM). The latter are of core-shell type, and are based on polypropylene oxide (hydrophobic core) and polyethylene oxide (hydrophilic shell). These coatings and their polymeric modified nano-composites are investigated with X-ray (XRD) method, which reveals changes in the metallographic structure as a result of the presence or absence of organic additives (wetting agent and brightener) and SPMs. The possible reasons for the changes observed are commented. In addition, cyclic voltammetry method (CVA) is applied in order to clarify the influence of the applied additives and of SPM on the cathodic (deposition) and anodic (dissolution) processes.

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The influence of SiC and Al2O3 micrometric particles on the electrodeposition of ZnNi films and the obtainment of ZnNi–SiC and ZnNi–Al2O3 electrocomposite coatings from slightly acidic solutions

Cited by 34 publications

References 32 publications

Zn–Ni–Al2O3 nano-composite coatings prepared by sol-enhanced electroplating

Zn–Ni–Al2O3 nano-composite coatings prepared by sol-enhanced electroplating

Effects of SiC and Al2O3 particles on the electrodeposition of Zn, Co and ZnCo. I. Electrodeposition in the absence of SiC and Al2O3

Influence of Organic Additives and of Stabilized Polymeric Micelles on the Metalographic Structure of Nanocomposite Zn and Zn-Co Coatings

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