Relation between Wet Adhesion of Coated Steel and Stress Changes in Coating Film

Abstract

Relation between wet adhesion of coated steel and stress changes in coating film has been investigated. Formation mechanism of ZnO under coating film has also been examined.
Zn₃(PO₄)₂4H₂O under coating film dehydrates to Zn₃(PO₄)₂2H₂O with cathodic electrodeposition (C-ED) baking. In the next place, Zn(OH)₂ and Zn(H₂PO₄)₂ are produced as a result of hydrolysis of partial Zn₃(PO₄)₂H₂O in water immersion. And then Zn(OH)₂ dehydrates easily to ZnO. Formed ZnO weakens remarkably adhesion force between coating film and phosphate film. In the meantime, in C-ED coated steel, very large remaining stress is produced in coating film. The bonding between coating film and phosphate film weakened by the formation of ZnO is easily destroyed by this stress. Futhermore, stress due to expansion of phosphate film is introduced as a result of restoration from Zn(H₂PO₄)₂ to Zn_3^-(PO₄)₂4H₂O in water immersion and then promotes the destruction. Accordingly wet adhesion of C-ED coated steel becomes poor.
The formation of ZnO and progress of hydrolysis reaction are controlled by Ni in phosphate film, and as the result, phosphate film is stabilized. And then stress due to expansion of phosphate film is not introduced because of the formation of amorphous phosphate film. Consequently phosphate film formed in high Ni⁺⁺ concentration solution makes good wet adhesion.