Electrodeposition and characterization of Zn–Mn alloy coatings obtained from a chloride-based acidic bath containing ammonium thiocyanate as an additive

The electrodeposition of Zn–Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH 4SCN) as an additive. An electrochemical study using cyclic voltammetry (CV), performed for each of the metal ions (Zn(II) and Mn(II)), showed that neither metal ion forms compl...

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Published inSurface & coatings technology Vol. 203; no. 9; pp. 1167 - 1175
Main Authors Díaz-Arista, P., Ortiz, Z.I., Ruiz, H., Ortega, R., Meas, Y., Trejo, G.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.01.2009
Subjects
Ammonium thiocyanate
Electrodeposition
Zinc–manganese alloys
Ammonium thiocyanate
Zinc–manganese alloys
Electrodeposition
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Abstract The electrodeposition of Zn–Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH 4SCN) as an additive. An electrochemical study using cyclic voltammetry (CV), performed for each of the metal ions (Zn(II) and Mn(II)), showed that neither metal ion forms complexes with NH 3, and that Mn(II) but not Zn(II) forms complexes with SCN −. The influence of NH 4SCN on the morphology, composition and crystallographic structure of the electrodeposited Zn–Mn alloys was studied using scanning electron microscopy (SEM), glow discharge spectroscopy (GDS) and X-ray diffraction (XRD). The results show that the presence of NH 4SCN in the solution induces an increase in the Mn content of the alloy, from 3% in the Zn–Mn alloy obtained in the absence of additive to 6.2% in the alloy obtained in the presence of additive. In addition, the presence of NH 4SCN favors the formation of coatings comprised of a mixture of ε-phase Zn–Mn(002) + α-phase Zn–Mn(111) alloys. These coatings were compact and smooth and exhibited a lower corrosion rate compared to the coatings obtained in the absence of NH 4SCN, which where comprised of a mixture of Zn, ε-phase Zn–Mn and α-phase Zn–Mn alloys.
AbstractList The electrodeposition of Zn-Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH4SCN) as an additive. An electrochemical study using cyclic voltammetry (CV), performed for each of the metal ions (Zn(II) and Mn(II)), showed that neither metal ion forms complexes with NH3, and that Mn(II) but not Zn(II) forms complexes with SCN-. The influence of NH4SCN on the morphology, composition and crystallographic structure of the electrodeposited Zn-Mn alloys was studied using scanning electron microscopy (SEM), glow discharge spectroscopy (GDS) and X-ray diffraction (XRD). The results show that the presence of NH4SCN in the solution induces an increase in the Mn content of the alloy, from 3% in the Zn-Mn alloy obtained in the absence of additive to 6.2% in the alloy obtained in the presence of additive. In addition, the presence of NH4SCN favors the formation of coatings comprised of a mixture of epsilon-phase Zn-Mn(002) + alpha-phase Zn-Mn(111) alloys. These coatings were compact and smooth and exhibited a lower corrosion rate compared to the coatings obtained in the absence of NH4SCN, which where comprised of a mixture of Zn, epsilon-phase Zn-Mn and alpha-phase Zn-Mn alloys.
The electrodeposition of Zn–Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH 4SCN) as an additive. An electrochemical study using cyclic voltammetry (CV), performed for each of the metal ions (Zn(II) and Mn(II)), showed that neither metal ion forms complexes with NH 3, and that Mn(II) but not Zn(II) forms complexes with SCN −. The influence of NH 4SCN on the morphology, composition and crystallographic structure of the electrodeposited Zn–Mn alloys was studied using scanning electron microscopy (SEM), glow discharge spectroscopy (GDS) and X-ray diffraction (XRD). The results show that the presence of NH 4SCN in the solution induces an increase in the Mn content of the alloy, from 3% in the Zn–Mn alloy obtained in the absence of additive to 6.2% in the alloy obtained in the presence of additive. In addition, the presence of NH 4SCN favors the formation of coatings comprised of a mixture of ε-phase Zn–Mn(002) + α-phase Zn–Mn(111) alloys. These coatings were compact and smooth and exhibited a lower corrosion rate compared to the coatings obtained in the absence of NH 4SCN, which where comprised of a mixture of Zn, ε-phase Zn–Mn and α-phase Zn–Mn alloys.
Author Ortiz, Z.I.
Ortega, R.
Ruiz, H.
Meas, Y.
Trejo, G.
Díaz-Arista, P.
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  email: gtrejo@cideteq.mx
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Zinc–manganese alloys
Electrodeposition
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Snippet The electrodeposition of Zn–Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH 4SCN) as an additive. An...
The electrodeposition of Zn-Mn alloys was performed using a chloride-based acidic bath containing ammonium thiocyanate (NH4SCN) as an additive. An...
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SubjectTerms Ammonium thiocyanate
Electrodeposition
Zinc–manganese alloys
Title Electrodeposition and characterization of Zn–Mn alloy coatings obtained from a chloride-based acidic bath containing ammonium thiocyanate as an additive
URI https://dx.doi.org/10.1016/j.surfcoat.2008.10.015
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