Suitable sealants for cracked aluminised steels

Aluminising of steels may result in the appearance of tensile cracks from the coating surface to the substrate due to the difference in thermal expansion coefficients. The cracks often need to be sealed to make the coatings impervious to chemical attack and to limit their mechanical degradation.

Researchers found that modifying phytic acid directly and/or changing the solution properties can improve the hydrophobic properties, resulting in a more effective anti-corrosion coating on steel surfaces. Source: Avantgarde - Fotolia.com

In this work, dipping of the cracked aluminide coatings elaborated on IN-800HT in 0.5, 1 and 3.75 mol·L-1 concentrations of H3PO4 in acetone and increasing the dipping time are investigated.

Microstructure remained identical

The three concentrations resulted in the formation of P-O compounds and of Al2O3. However, the 0.5 mol·L-1 allowed better wetting of the surface. Further reduction of the concentration from 0.5 mol·L− 1 to 0.2 mol·L-1 brought about the complete sealing of both large and fine cracks. The efficiency of the sealing process with 0.2 mol·L− 1 and 0.5 mol·L-1 was thereafter evaluated by cyclic oxidation in air at 650 °C for 1000 cycles. The overall microstructure and composition of the aluminide coatings remained identical after sealing and the oxidation behaviour comparable to the untreated counterparts.

Minor cracks were healed with Al2O3

The oxide scale formed on the untreated samples appeared thicker compared to the sealed ones. The latter were covered by a thin layer of AlPO4 which evolved towards a thin protective alumina scale. However, for the sealed samples, some minor cracks were detected after oxidation but they appeared completely healed with Al2O3 and no propagation of them beyond the additive layer/interdiffusion zone was noticed.

The study is published in: Surface and Coatings Technology, Volume 327, 25 October 2017, Pages 9-17

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