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A Critical Review of the Oxidation of Ti<sub>2</sub>AlC, Ti<sub>3</sub>AlC<sub>2</sub>and Cr<sub>2</sub>AlC in Air

Darin J. TallmanMaterials Science and Technology , Drexel University , Philadelphia , PA , 19104 , USABabak AnasoriMaterials Science and Technology , Drexel University , Philadelphia , PA , 19104 , USAMichel W. BarsoumMaterials Science and Technology , Drexel University , Philadelphia , PA , 19104 , USA
2013en
ABI

Аннотация

Of all the M n+1AX n phases, the most resistant to oxidation in air in the 900–1,400°C temperature range are Ti2AlC, Ti3AlC2 and Cr2AlC. A literature review, however, shows that while many claim the oxidation kinetics to be parabolic, others claim them to be cubic. Whether the kinetics are parabolic or better is of vital practical importance. By carefully re-plotting the results of others and carrying out one oxidation run for ≈3,000 h at 1,200°C on a Ti2AlC sample, we conclude that the oxidation kinetics are better described by cubic kinetics and that even that conclusion is an approximation. Lastly, we present compelling evidence that the rate-limiting step during the oxidation of Ti2AlC is diffusion down the alumina scale grain boundaries.

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