Water vapor effects on the cyclic oxidation resistance of alumina forming alloys

“…Nominally, at higher Al contents, a lower mass gain would be expected as a protective Al-rich oxide scale would be expected to form. However, the presence of H 2 O appears to inhibit the formation of a protective alumina scale, similar to observations in wet air [20]. As noted in Figures 9 and 10, this study is not complete and internal oxidation penetration depth may be more revealing than mass gain when comparing composition effects and cast versus wrought alloys.…”

“…Superalloys with higher Al contents, >3wt.%, can form a protective external alumina scale, which is more stable than chromia such that these alloys do not experience volatilization [19]. However, even alumina-forming alloys and coatings can experience increased scale spallation in the presence of H 2 O [20,21]. Several studies have examined high temperature environmental effects of simple oxidizing environments on crack growth rates and fatigue life, which is extremely important for wrought and cast superalloys [22][23][24].…”

Oxidation of Superalloys in Extreme Environments

“…Nominally, at higher Al contents, a lower mass gain would be expected as a protective Al-rich oxide scale would be expected to form. However, the presence of H 2 O appears to inhibit the formation of a protective alumina scale, similar to observations in wet air [20]. As noted in Figures 9 and 10, this study is not complete and internal oxidation penetration depth may be more revealing than mass gain when comparing composition effects and cast versus wrought alloys.…”

“…Superalloys with higher Al contents, >3wt.%, can form a protective external alumina scale, which is more stable than chromia such that these alloys do not experience volatilization [19]. However, even alumina-forming alloys and coatings can experience increased scale spallation in the presence of H 2 O [20,21]. Several studies have examined high temperature environmental effects of simple oxidizing environments on crack growth rates and fatigue life, which is extremely important for wrought and cast superalloys [22][23][24].…”

Oxidation of Superalloys in Extreme Environments

“…Oxide spallation increased by the formation of aluminum hydroxide (34)(35) and by the weakness of the scale/alloy interface (32)(33). In the present study, oxide spallation occurred during cooling.…”

“…Recently, the effects of small noble metals (palladium, rhodium, platinum) additions on the oxidation behavior of the Al 2 O 3 -forming heat-resistant alloys have been also studied (25)(26)(27)(28)(29)(30)(31). On the other hand, water vapor usually has adverse effects on the oxidation resistance of Al 2 O 3 -forming alloy (32)(33)(34)(35). Cr 2 O 3 -forming heat-resisting alloys have also served in oxidizing atmospheres at temperatures up to 1473K (36)(37)(38)(39)(40)(41)(42)(43)(44)(45), however, the Cr 2 O 3 have volatile property during high-temperature oxidation.…”

High-Temperature Oxidation Resistance of Al₂O₃- and Cr₂O₃-Forming Heat-Resisting Alloys with Noble Metals and Rare Earths

“…Many researches have already been performed, not only at low pressure and temperatures above room temperature, but also by air or during electrochemical oxidation and plasma formation [8][9][10][11][12] Liu et al focused on the research of the corrosion phenomena for a single-crystal Ni-base superalloy at 900 and 1000°C in an air and oxidation was found to be occurred in two steps. It is noted that first oxidation is controlled by NiO growth and the second by Al 2 O 3 growth until Al 2 O 3 layer formed beneath NiO layer [13].…”

Preparation of oxide powder by continuous oxidation process from recycled Fe-77Ni alloy scrap