Startseite Influence of zinc (II) ion concentration on Ni–Zn–P coatings deposited onto aluminum and their corrosion behavior
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Influence of zinc (II) ion concentration on Ni–Zn–P coatings deposited onto aluminum and their corrosion behavior

  • Karima Chouchane , Alexandra Levesque , Omar Aaboubi , Samuel Crequy , Nadir Mesrati und Jean Paul Chopart
Veröffentlicht/Copyright: 7. Januar 2015
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International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 106 Heft 1

Abstract

Various Ni–Zn–P alloy coatings were deposited onto aluminum substrates using electroless plating from a sulphate bath containing varying amounts of zinc (II) ions. Different techniques, such as scanning electron microscopy, energy dispersive X-ray spectroscopy and X-ray diffraction, were employed to characterize the morphology, composition and structural properties of the resulting films. The effect of varying Zn content on the corrosion properties of the coatings was tested in 3 wt.% NaCl media, by means of current–potential curves, potential transients and electrochemical impedance spectroscopy measurements. It was found that increasing ZnSO4 concentration from 5 to 25 g l−1 in the plating bath, increases the Zn content in the film from 9.90 wt.% to 12.7 wt.%, reduces the film thickness, modifies the surface morphology and significantly reduces the corrosion rate.

Keywords: Electroless deposition; Ni–Zn–P alloys; Corrosion; Aluminum; Electrochemical impedance
* Correspondence address, Karima Chouchane, Laboratoire Sciences et génie des Matériaux, Département de Métallurgie, 10, Avenue Pasteur, Hassane Badi, BP 182, El Harrach, Alger, Algeria. Tel.: +213 21 52 53 01, Fax: +213 21 52 29 73, E-mail:

References

[1] Y.Cheng, Y.Zou, L.Cheng, W.Liu: Mater. Lett.62 (2008) 42834285. 10.1016/j.matlet.2007.09.035Suche in Google Scholar

[2] Y.Z.Zhang, Y.Y.Wu, M.Yao: J. Mater. Sci. Lett.17 (1998) 3740. 10.1023/A:1006504702356Suche in Google Scholar

[3] F.C.Walsh, C. Poncede Leon, C.Kerr, S.Court, B.D.Barker: Surf. Coat. Technol.63 (2009) 18071809.Suche in Google Scholar

[4] M.R.Zamanzad-Ghavidel, K.Raeissi, A.Saatchi: Mater. Lett.63 (2009) 18071809. 10.1016/j.matlet.2009.05.043Suche in Google Scholar

[5] I.Apachitei, J.Duszczyk: J. Appl. Electrochem.29 (1999) 837843.10.1023/A:1003526709182Suche in Google Scholar

[6] R.L.Deuis, C.Subramanian, J.M.Yellup, K.N.Strafford, P.Arora: Scr. Metall. Mater.33 (1995)12171227. 10.1016/0956-716X(95)00353-WSuche in Google Scholar

[7] J.F.Rohan, G.O'Riordan, J.Boardman: Appl. Surf. Sci.185 (2002) 289297. 10.1016/S0169-4332(01)00982-5Suche in Google Scholar

[8] A.F.Kanta, V.Vitry, F.Delaunois: J. Alloys Compd.489 (2009) 121123.Suche in Google Scholar

[9] M.Planiappa, S.K.Seshadri: J. Mater. Sci.42 (2007) 66006606. 10.1007/s10853-007-1501-5Suche in Google Scholar

[10] M.M.Younan, I.H.M.Ali, M.T.Nageeb: J. Appl. Chem.32 (2002) 439446.Suche in Google Scholar

[11] A.M.Popescu, K.Yanuskevich, O.Domidenko, J.M. CalderonMoreno, E.I.Neacsu, V.Constantin: Cent. Eur. J. Chem.11 (2013) 11371149. 10.2478/s11532-013-0236-1Suche in Google Scholar

[12] E.Khan, C.F.Oduoza, T.Pearson: J. Appl. Electrochem.37 (2007) 13751381. 10.1007/s10800-007-9397-ySuche in Google Scholar

[13] C.Y.Bai, Y.H.Chou, C.L.Chao, S.J.Lee, M.D.Ger: J. Power Sources183 (2008) 174181. 10.1016/j.jpowsour.2008.04.082Suche in Google Scholar

[14] Y.J.Hu, T.X.Wang, J.L.Meng, G.Y.Rao: Surf. Coat. Technol.20 (2006) 988992. 10.1016/j.surfcoat.2006.01.012Suche in Google Scholar

[15] Y.Gao, L.Huang, Z.J.Zheng, H.Li, M.Zhu: Appl. Surf. Sci.253 (2007) 94709475. 10.1016/j.apsusc.2006.09.002Suche in Google Scholar

[16] D.Vojtch, M.Novák, M.Zelinková, P.Novák, A.Michalcová, T.Fabián: Appl. Surf. Sci.255 (2009) 37453751. 10.1016/j.apsusc.2008.10.026Suche in Google Scholar

[17] E.Valova, J.Dille, S.Armyanov, J.Georgieva, D.Tatchev, M.Marinov, J.L.Delplancke, O.Steenhaut, A.Hubin: Surf. Coat. Technol.190 (2005) 336334. 10.1016/j.surfcoat.2004.03.050Suche in Google Scholar

[18] M.Bouanani, F.Cherkaoui, R.Fratesi, G.Roventi, G.Barucca: J. Appl. Electrochem.29 (1999) 11711176. 10.1023/A:1003426904395Suche in Google Scholar

[19] B.Veeraraghavan, B.Haran, B.Popov: Electrochim. Acta.49 (2004) 31433154. 10.1016/j.electacta.2004.01.035Suche in Google Scholar

[20] L.Gil, L.Jiménez, A.C.Castro, E.S.Puci-Cabrera, M.Staia: Rev. Metal. Madrid44 (2008) 6673. 10.3989/revmetalm.2008.v44.i1.96Suche in Google Scholar

[21] Z. AbdelHamid, W.A.Ghanem, A. Abo ElEnin: Surf. Interface Anal.37 (2005) 792496. 10.1002/sia.2078Suche in Google Scholar

[22] E.I.Neacsu, V.Constantin, V.Soare, P.Osiceanu, M.V.Popa, A.M.Popescu: Rev. Chim.9 (2013) 69.Suche in Google Scholar

[23] A.M.Popescu, V.Constantin, M.Olteanu, V.Soare, M.Burada, E.I.Neacsu: Rev. Chim.4 (2013) 64.Suche in Google Scholar

[24] R.C.Agarwala, V.Agarwala: Sadhana28 (2003) 457493. 10.1007/BF02706445Suche in Google Scholar

[25] M.Ratzker, D.S.Lashmore, K.W.Pratt: Plat. Surf. Finish.73 (1986) 7482.Suche in Google Scholar

[26] K.G.Keong, W.Sha, S.Malinov: J. Alloys Compd.334 (2002) 192199. 10.1016/S0925-8388(01)01798-4Suche in Google Scholar

[27] C.N.Panagopoulous, V.D.Papachristos, C.J.Sigalas: J. Mater. Sci.34 (1999) 25892600. 10.1023/A:1004600732400Suche in Google Scholar

[28] G.Lu, G.Zangari: Electrochim. Acta47 (2002) 29692979. 10.1016/S0013-4686(01)00883-0Suche in Google Scholar

[29] B.P.Daly, F.J.Barry: Int. Mater. Rev.48 (2003) 326338. 10.1179/095066003225008482Suche in Google Scholar

[30] H.Ashassi-Sorkhabi, M.Es'haghi: Corros. Sci.77 (2013) 185193. 10.1016/j.corsci.2013.07.046Suche in Google Scholar

[31] M.Oulladj, D.Saidi, E.Chassaing, S.Lebaili: J. Mater Sci.34 (1999) 24372439. 10.1023/A:1004566817439Suche in Google Scholar

[32] E.E. Abd ElAal: Corros. Sci.45 (2003) 759775. 10.1016/S0010-938X(02)00135-XSuche in Google Scholar

[33] H.Ayoub, V.Lair, S.Griveau, P.Brunswick, J.H.Zagal, F.Bedioui, M.Cassir: Electroanalysis24 (2012) 386391. 10.1002/elan.201100571Suche in Google Scholar

[34] B.Elsner, M.Crobu, M.A.Scorciapino, A.Rossi: J. Appl. Electrochem.38 (2008) 10531060. 10.1007/s10800-008-9573-8Suche in Google Scholar

[35] M.Stern, A.L.Geary: J. Electrochem. Soc104 (1957) 5663. 10.1149/1.2428496Suche in Google Scholar

[36] Z.Yin, F.Chen: Surf. Coat. Technol.228 (2013) 3440. 10.1016/j.surfcoat.2013.04.001Suche in Google Scholar

[37] F.Mansfield: Electrochim. Acta38 (1993) 18911897. 10.1016/0013-4686(93)80311-MSuche in Google Scholar

[38] J.R.Macdonalds: Emphasizing Solid Materials and Systems, John Wiley & Sons, London (1987).Suche in Google Scholar

[39] B.Hirschorn, M.E.Orazem, B.Tribollet, V.Vivier, I.Frateur, M.Musiani: J. Electrochem. Soc.157 (2010) C452C463. 10.1149/1.3306004Suche in Google Scholar

[40] G.J.Brug, A.L.G.Ven den Eeden, M.Sluyters-Rebach, J.Sluyters: J. Electroanal. Chem.176 (1984) 275295. 10.1016/S0022-0728(84)80324-1Suche in Google Scholar

[41] O.Aaboubi: Int. J. Hydrogen Energy36 (2011) 47024709. 10.1016/j.ijhydene.2011.01.035Suche in Google Scholar

[42] C.Andrade, M.Keddam, X.R.Novoa, M.C.Pérez, C.MRangel, H.Takenouti: Electrochim. Acta46 (2001) 39053912. 10.1016/S0013-4686(01)00678-8Suche in Google Scholar

[43] T.V.Byk, T.V.Gaevskaya, L.S.Tsybulskaya: Surf. Coat. Technol.202 (2008) 58175823. 10.1016/j.surfcoat.2008.05.058Suche in Google Scholar

Received: 2014-04-20
Accepted: 2014-08-10
Published Online: 2015-01-07
Published in Print: 2015-01-09

© 2015, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Original Contributions
  4. A novel roll-bonding methodology for the cross-scale analysis of phase properties and interactions in multiphase structural materials
  5. Excellent cold rollability in a single pass of an Mg-4Er (wt.%) alloy
  6. An experimental study of the precipitation kinetics of pre-rolled Ni-Span-C 902 superalloy
  7. Influences of high temperature on the microstructural, electrical and mechanical properties of Ni-23 wt.% Al alloy
  8. Investigation of the wear resistance and microstructure of Al/SiC metal matrix composites as a function of reinforcement volume fraction and reinforcement to matrix particle size ratio applying artificial neural network
  9. Influence of zinc (II) ion concentration on Ni–Zn–P coatings deposited onto aluminum and their corrosion behavior
  10. Joining steel to aluminum alloy by resistance spot welding with a rivet
  11. Electrophysical and structure-sensitive properties of liquid Ga–In alloys
  12. Short Communications
  13. Synthesis and characterization of the novel nanocomposite Co(OH)2/graphene as supercapacitor materials
  14. Preparation of MnAlC flakes by surfactant-assisted ball-milling and the effects of annealing
  15. An improved two-stage sintering method for tungsten heavy alloys: conventional solid-phase sintering followed by microwave heating
  16. Effect of excess Pb on ferroelectric characteristics of conductive Al-doped ZnO and Sn-doped In2O3 top electrodes in PbLaZrTiOx capacitors
  17. Effects of La–Zn substituent and calcination temperature on the microstructure and magnetic properties of Sr-ferrites
  18. Predicting the corrosion tendency of α-brass in acidic and alkaline tap water
  19. People
  20. 10.3139/146.610026
  21. DGM News
  22. DGM News
https://doi.org/10.3139/146.111155
Schlagwörter für diesen Artikel
Electroless deposition; Ni–Zn–P alloys; Corrosion; Aluminum; Electrochemical impedance

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. Original Contributions
  4. A novel roll-bonding methodology for the cross-scale analysis of phase properties and interactions in multiphase structural materials
  5. Excellent cold rollability in a single pass of an Mg-4Er (wt.%) alloy
  6. An experimental study of the precipitation kinetics of pre-rolled Ni-Span-C 902 superalloy
  7. Influences of high temperature on the microstructural, electrical and mechanical properties of Ni-23 wt.% Al alloy
  8. Investigation of the wear resistance and microstructure of Al/SiC metal matrix composites as a function of reinforcement volume fraction and reinforcement to matrix particle size ratio applying artificial neural network
  9. Influence of zinc (II) ion concentration on Ni–Zn–P coatings deposited onto aluminum and their corrosion behavior
  10. Joining steel to aluminum alloy by resistance spot welding with a rivet
  11. Electrophysical and structure-sensitive properties of liquid Ga–In alloys
  12. Short Communications
  13. Synthesis and characterization of the novel nanocomposite Co(OH)2/graphene as supercapacitor materials
  14. Preparation of MnAlC flakes by surfactant-assisted ball-milling and the effects of annealing
  15. An improved two-stage sintering method for tungsten heavy alloys: conventional solid-phase sintering followed by microwave heating
  16. Effect of excess Pb on ferroelectric characteristics of conductive Al-doped ZnO and Sn-doped In2O3 top electrodes in PbLaZrTiOx capacitors
  17. Effects of La–Zn substituent and calcination temperature on the microstructure and magnetic properties of Sr-ferrites
  18. Predicting the corrosion tendency of α-brass in acidic and alkaline tap water
  19. People
  20. 10.3139/146.610026
  21. DGM News
  22. DGM News
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