Jc. Norris et al., Quantitative analysis of indium and iron at the surface of a commercial Al-Zn-In sacrificial anode, SURF INT AN, 30(1), 2000, pp. 170-175
X-ray photoelectron spectroscopy (XPS) was employed to analyse the surface
of commercial Al-Zn-In sacrificial anodes in order to quantify the concentr
ations of indium and iron. Analysis was tarried out on the as-cast and cut
surfaces prior to corrosion testing, followed by short-term 5 h corrosion t
ests in a 3.5 wt,% NaCl solution in order to determine the difference, if a
ny, in the activity of the as-cast and cut surfaces, One year corrosion tes
ts were also carried out to monitor the changes at the surface in [In] and
[Fe], and how these changes were related to anode performance,
Indium was found at a concentration of similar to 1 wt,% at the as-cast sur
face compared to a concentration of 0.02 wt,% in the bulk, defined by XPS a
nalysis and optical emission spectroscopy, This surface enrichment was ascr
ibed to inverse segregation, The as-cast surface was activated spontaneousl
y compared to the cut surface. It is proposed that this behaviour was due t
o higher [In] and [Fe] at the surface, it is believed that the enrichment o
f indium and iron is situated at the metal/oxide interface, which leads to
disruption of the oxide film and results in a more active surface,
Indium enriches to a maximum concentration of 4 wt,% at the surface when th
e anodes are corroded over 1 year, The enrichment supports the indium disso
lution-redeposition mechanism for activating passive aluminium, proposed by
Reboul et al,(1) Corrosion tests and XPS analysis suggest that mechanical
loss becomes the more dominant mechanism in the loss of anode efficiency be
yond 1 month of operation, Copyright (C) 2000 John Wiley & Sons, Ltd.