Development of zinc ferrocyanide ion exchange compounds for corrosion-inhibiting and sensing pigments

•Zinc ferrocyanide was developed and used as a novel inhibiting and sensing pigment in the coating.•Zinc ferrocyanide has a storage capacity of 200meq/100g, and releases inhibitors at a high rate.•The crystal structure change makes the pigmented coating to be a sensing coating. The fabrication and a...

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Bibliographic Details
Published in:Progress in organic coatings 2017-03, Vol.104, p.210-216
Main Authors: Li, Jichao, Buchheit, Rudolph
Format: Article
Language:English
Subjects:
Aluminum base alloys
Coating
Corrosion
Corrosion inhibitors
Corrosion prevention
Crystal structure
Detection
Diffraction
Electrochemical impedance spectroscopy
Inductively coupled plasma
Inhibitor
Ion exchange
Ion exchange compounds
Kinetics
Organic coatings
Paints
Pigments
Primers (coatings)
Protective coatings
Salt spray tests
Storage capacity
Zinc coatings
Zinc compounds
Zinc ferrocyanide
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Summary:•Zinc ferrocyanide was developed and used as a novel inhibiting and sensing pigment in the coating.•Zinc ferrocyanide has a storage capacity of 200meq/100g, and releases inhibitors at a high rate.•The crystal structure change makes the pigmented coating to be a sensing coating. The fabrication and application of zinc ferrocyanide ion exchange compounds for use as inhibiting and sensing pigments in protective paints and primers for metals and alloys are described in this paper. A distinctive property of these ferrocyanide pigments is an ability to store corrosion inhibitors and then release them when needed by an ion exchange process. The exchange process is triggered when moisture containing Na+ and K+ ions contacts inhibitor particles embedded in an organic coating. The exchange kinetics were studied by measuring the concentration of released zinc ions in the solution with inductively coupled plasma. The inhibitor storage capacity can be as high as 200meq/100g, and it is much higher than that found in other reported ion exchange compounds. Furthermore, structure changes from non-crystalline to crystalline, upon exchange with alkaline ions, can be detected by x-ray diffraction, providing an important indication of activation of the corrosion protection. This is a form of corrosion sensing. The inhibition performance of zinc ferrocyanide in the coating was examined by salt spray tests and electrochemical impedance spectroscopy, and both tests showed that zinc ferrocyanide could provide good protection on aluminum alloy 2024.
ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2016.11.003