Novel environment friendly corrosion inhibitor pigments based on naturally occurring clay minerals

Novel, ceramic, corrosion inhibitor pigments consisting of cerium (III) and calcium (II) cation exchanged bentonites have been shown to provide effective cut‐edge corrosion resistance in organic coated galvanised steel. The bentonite pigments were prepared from a naturally occurring (Wyoming) bentonite with a cation‐exchange‐capacity of 0.7 milli‐equivalents per gram. Cation exchange was carried out by repeated washing with aqueous solutions of cerium (III) chloride and calcium (II) chloride to produce bentonites containing 31 500 ppm exchangeable cerium (III) and 13 500 ppm exchangeable calcium (II) respectively. The resulting bentonite pigments were dispersed in a polyester‐resin based primer paint system to give a pigment volume concentration of 19%. For comparison, two similar primer systems were prepared containing a commercial calcium (II) exchanged silica pigment (Shieldex: 60 000 ppm calcium (II)) and a strontium chromate dispersion, both with a 19% pigment volume concentration. All three primer systems were applied (5 μm) to the zinc surface of galvanised 0.7 mm gauge sheet steel and overcoated with an architectural polyester topcoat (18 μm). The performance of the inhibitor pigments was compared by measuring the rate of corrosion‐driven organic coating delamination from the cut edge of samples during 1000 h of salt‐spray testing. The calcium (II) bentonite pigment exhibited an anti‐delamination performance similar to that of strontium chromate but superior to that of Shieldex. However, the cerium (III) bentonite pigment was superior in performance to both strontium chromate and Shieldex. Thus, the bentonite pigments represent promising, environmentally friendly, ion‐exchange corrosion inhibitors which exhibit good anti‐delamination performance by comparison with current commercial systems.