Corrosion Resistance of Conversion Film Formed on Aluminium Alloy Using Cerium Salt Surface Treatment

Zhang, W.; Li, J.-Q.; Wu, Yuan; Xu, Jiang; Chen, K.

doi:10.1179/026708401225002785

Cited by 17 publications

(9 citation statements)

References 8 publications

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“…It was widely recognized as an attractive alternative to chromate conversion coating for the protection of aluminum alloys because cerium compounds are non-toxic and relatively cheap. Corrosion inhibition by cerium salts is generally associ- ated with the formation and precipitation of cerium oxides or hydroxides over cathodic sites [10,16,18,19]. It is a hot point for the study of Ce conversion coating on the aluminum alloy or AMCs surfaces in the corrosion research field; unfortunately, a little work has been reported on Gr-f/Al composites surface [20].…”

Section: Introductionmentioning

confidence: 99%

Characterization of Ce conversion coating on Gr-f/6061Al composite surface for corrosion protection

Wang

Zhang

et al. 2008

Journal of Alloys and Compounds

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Section: Introductionmentioning

confidence: 99%

Characterization of Ce conversion coating on Gr-f/6061Al composite surface for corrosion protection

Wang

Zhang

et al. 2008

Journal of Alloys and Compounds

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“…The magnification morphology of Ce-sealed Ni-P coating Journal of Materials Engineering and Performance the reported spectra (Ref 20,23,25). Characteristic peaks of corresponding Ce 3+ state were lacking on it.…”

mentioning

confidence: 94%

“…However, one must note that the efficiency of the various processes using cerium salts is developed. In a series of papers (Ref [21][22][23], several researchers demonstrated that treatments with aqueous solution of rare earth salts, especially cerium salts effectively inhibited the metals corrosion. These studies revealed that corrosion protection can be attributed to the formation of a hydrate rare earth oxide film over the cathodic sites on the metal surface.…”

Section: Introductionmentioning

confidence: 99%

Effect on Corrosion Resistance of Ce-Rich-Sealed Ni-P Coatings on Cf/Al Composite Surface

Wang

Zhang

et al. 2012

J. of Materi Eng and Perform

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In this study, Ni-P coatings and sealing of the coatings by Ce-rich solution on Cf/Al composite surface for enhanced corrosion resistance are investigated. The corrosion resistance of uncoating sample in 3.5 wt.% NaCl solution was investigated and a comparison with Ni-P and Ce-sealed Ni-P coatings is given. Effect of Ce-sealing on Ni-P coating is discussed. The results of electrochemical measurements of corrosion performance of Cf/Al composites show that sealing of Ni-P coatings with Ce-rich solution can improve the corrosion resistance. The Ce-rich-sealed Ni-P coating has higher corrosion resistance than the coating without Ce, and the electroless plated Ni-P coating on composite surface has higher corrosion resistance than the bare sample, as evidenced by EIS and potentiodynamic polarization measurements. The microstructure of the Cf/Al composites and the two kinds of coatings (i.e., Ni-P coating and Ce-sealed Ni-P coating) were examined by scanning electron microscopy, energy dispersive spectroscopy, and transmission electron microscopy. The Ce-sealed Ni-P coatings on Cf/Al composite surface have a total thickness of $11 lm of which 10 lm is the thickness of the Ni-P coating and $1 lm is the thickness of the Ce-rich sealing. It shows that the selected area electron diffraction ring pattern of Ce-rich sealing on Ni-P plated composite is consistent with Ce 6 O 11 or CeO 2 . X-ray photoelectron spectroscopy results show that Ce 4+ was the dominant oxidation state for Ce-rich sealing on Ni-P plated composite. The Ce-sealing treatment on Ni-P coating has improved the corrosion resistance over and above the corrosion resistance offered by the Ni-P mono-coating to the bare substrate.

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“…A necessidade de encontrar um substituto a altura para os pré-tratamentos de superfície à base de cromato tem levado os pesquisadores a associarem diferentes tratamentos dando origem a sistemas em multicamadas. Estudos empregando sistemas em bi-camada foram pesquisados porXingwen et al (2000; eZhang et al 2002 com camadas de conversão de Ce, obtidas a partir de tratamentos químicos em duas soluções com composições distintas Xingwen et al (2000;. produziram uma bi-camada através da imersão sucessiva de uma liga Al 2024 em soluções de Ce(NO 3 ) 3 e de Ce(CO 3 ) 2 .…”

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“…Ambos os banhos foram acelerados com H 2 O 2 , acidificados com H 3 BO 3 , e o tempo de imersão da amostra em cada uma das soluções foi de 2 horas. Por EIS os autores observaram uma sensível melhora do comportamento anticorrosivo do sistema em bi-camada, caracterizado por uma impedância cerca de uma ordem de grandeza maior quando comparadas aos mesmos sistemas em monocamada Zhang et al (2002). publicaram resultados sobre a obtenção de bi-camadas de conversão de Ce sobre ligas Al-Zn-Mg-Cu por imersão sucessiva da liga em uma solução alcalina contendo sal de Ce (III), seguida da imersão em outra solução alcalina contendo um sal de Ce(IV), tratamento este denominado pelos autores como ZW.…”

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Caracterização microestrutural e eletroquímica de revestimentos ambientalmente amigáveis aplicados sobre a liga de Al 2024-T3.

Palomino¹,

Enrique²

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Corrosion Resistance of Conversion Film Formed on Aluminium Alloy Using Cerium Salt Surface Treatment

Cited by 17 publications

References 8 publications

Characterization of Ce conversion coating on Gr-f/6061Al composite surface for corrosion protection

Characterization of Ce conversion coating on Gr-f/6061Al composite surface for corrosion protection

Effect on Corrosion Resistance of Ce-Rich-Sealed Ni-P Coatings on Cf/Al Composite Surface

Caracterização microestrutural e eletroquímica de revestimentos ambientalmente amigáveis aplicados sobre a liga de Al 2024-T3.

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