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Oxidation mechanism of the Inconel 601 alloy at high temperatures

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WILEY-V C H VERLAG GMBH
DOI: 10.1002/maco.200905519

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The Inconel 601 alloy oxidation was performed in air, in the temperature range 1000-1150 degrees C, during 90 h. Kinetic results show that the parabolic behavior is always followed in this temperature range. The Arrhenius plot of the k(p) values shows two different activation energies. Between 1000 and 1050 degrees C the activation energy is E-a1 = 160 +/- 10 kjimol. In the 1050-1150 degrees C temperature range a higher value is calculated E-a2 = 252 +/- 20 kj/mol. The E-a2 value and the X-ray diffraction (XRD) results and scanning electron microscope (SEM) energy dispersive X-ray spectroscopy (EDS) examinations are in accordance with a scale growth mechanism limited by a growing Cr2O3 scale acting as a diffusion barrier. In the 1000-1050 degrees C temperature range the activation energy is lower and the structural analyses show that the oxide scale is not only composed of Cr2O3. Then, the oxide scale is composed of titanium oxides (TiO2 and Ti2Cr7O17) and chromia mixed together. A doping effect of the chromia scale by titanium can be envisaged. Our results also show the presence of some Mn1.5Cr1.5O4 at the external interface. This external subscale spalls off easily during cooling after the highest temperature oxidation tests. Nevertheless, XRD results and SEM EDS observations show that the Cr2O3 scale remains very adherent on the substrate and can give a good oxidation protection. This good adherence can be related to the presence of a low amount of aluminum in the Inconel 601 alloy composition.

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