ZrO 2 pre-treatments applied with the sol–gel technique are a possible replacement of chromium based pre-treatments on aluminium alloys. The thickness and homogeneity of the films deposited on AA6060 alloy are strongly related to the process parameters like preparation of the surface, number of dips and thermal treatment of the film.ZrO 2 films were prepared using the dip-coating technique in sol obtained from metal-organic precursors in an organic solvent (0.1M Zr(OBu n ) 4 in anhydrous n-butanol with addition of acetic acid as complexing agent). Different layers were applied on AA6060 changing number of dips and thermal treatment (150°C for 1h or 250°C for 4min). The typical thickness of the deposited layers was in the range 70–180nm depending on process parameters. The electrochemical behaviour of the pre-treated alloy in diluted Harrison solution (0.05wt% NaCl+0.35wt% (NH 4 ) 2 SO 4 ) was investigated by means of potentiodynamic polarization, open circuit potential measurements, and electrochemical impedance spectroscopy. In addition, the electrochemical behaviour of ZrO 2 sol–gel films was compared with that of chromatized AA6060 and fluotitanated/fluozirconated AA6060. In order to evaluate the adhesion properties of the films, ZrO 2 pre-treated AA6060, chromatized AA6060 and fluotitanated/fluozirconated AA6060 were painted with a polyester resin and subjected to thermal cycles in 0.05wt% NaCl. Each thermal cycle consisted of heating the samples at 90°C, permanence at 90°C for 6h, cooling at room temperature and permanence at room temperature for 18h. Impedance measurements were performed at the end of each cycle.Potentiodynamic polarization curves and impedance spectra indicate that ZrO 2 pre-treatments have similar barrier properties to those of chromatized AA6060. However, no self-healing ability is observed for ZrO 2 films.The barrier properties of ZrO 2 films are strongly dependent on process parameters. In particular, the number of dips determines the amount of defects in the film and its homogeneity. The electrochemical behaviour strongly improves increasing the number of dips in the deposition bath. Thermal aging cycles evidence good adhesion properties for ZrO 2 pre-treatments.