Suitable sealants for cracked aluminized austenitic steels and their oxidation behaviour

Abstract: Aluminizing 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. 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. The three concentrations re… Show more

“…Experiments conducted by Agüero et al have shown the good behaviour of another kind of aluminium slurry deposited on P92 ferritic-martensitic steels for 41 000 hours in steam, at 650°C [28]. In addition, they can be repaired [29] and the potential cracks can be sealed [30]. However, although the high temperature behaviour of these aluminides has been discussed, there is no real description of the slurry coatings themselves in the open literature, let alone in what the aluminising treatment may affect the microstructure and microhardness of the parent material, which are the main aims of this work.…”

Characterisation of aluminium diffusion coatings elaborated on austenitic stainless steels and on ferritic-martensitic steels

“…Experiments conducted by Agüero et al have shown the good behaviour of another kind of aluminium slurry deposited on P92 ferritic-martensitic steels for 41 000 hours in steam, at 650°C [28]. In addition, they can be repaired [29] and the potential cracks can be sealed [30]. However, although the high temperature behaviour of these aluminides has been discussed, there is no real description of the slurry coatings themselves in the open literature, let alone in what the aluminising treatment may affect the microstructure and microhardness of the parent material, which are the main aims of this work.…”

Characterisation of aluminium diffusion coatings elaborated on austenitic stainless steels and on ferritic-martensitic steels

“…The gamma region is strongly shrunk because of the infiltration of Al atoms. Recrystallization of gamma-alpha (Al 2 O 3 ) occurs after austentie saturation [24,25]. After aluminizing for 1 h, the interface between the aluminide layer and substrate is fairly irregular owing to the preferential and fast aluminide layer growth in the early stage of aluminizing ( Figure 1a).…”

Process and High-Temperature Oxidation Resistance of Pack-Aluminized Layers on Cast Iron

Formation and phase transformation of aluminide coating prepared by low-temperature aluminizing process