Researchers’ efforts are focused on understanding how coatings can be tested in order to determine their real capabilities and selected for different purposes. Outdoor exposures are certainly reliable and offer a good representation of the actual service life. However, such tests cannot be considered quick. On the other hand, a quick test, even if reliable, very often disagrees with the actual degradation mechanisms occurring under natural conditions. In fact, in order to determine an acceleration of the natural weathering, it is necessary to increase the effect of natural parameters affecting the protection properties of a coating. The usual modern way to operate is to take advantage of ageing tests where temperature plays a big role in the ageing of the material, permitting to gather faster information for coating corrosion resistance evaluation. Following the recent new experience realised by the Bierwagen group, we carried out different thermal cycling tests consisting in daily series of electrochemical measurements on coated samples, carried out using electrochemical impedance spectroscopy (EIS). The cumulative effects of such a thermal cycling on the film, based on a large variety of theoretical explanations, should permit the ranking of a variety of materials, by constituents, characteristics and application purposes, in a short time while remaining objective and reliable. The used ageing procedure and data evaluation allowed to quickly and precisely obtain information concerning both barrier properties and adhesion properties of the studied materials.