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The high temperature oxidation behaviors of Ti Cr alloys containing 18% ~ 35% Cr with Laves phase TiCr 2 were investigated at 650 ~ 780?℃ for exposure up to 104?h. The results reveal that chromium content has critical significance to the oxidation resistance of the alloys. The scaling rates of the alloys with less than 21% Cr are higher than those measured for pure titanium, but for the alloys with more than 26% Cr their scaling rate is lowered by 1~2 times, under the same oxidizing conditions. Both an external and an internal oxidation layers were observed. The oxidation resistance enhancement by chromium alloying is contributed to the formation of a continuous and compact chromic oxide interleaf in the scale. Oxidation temperature significantly affects the scaling rates of Ti Cr alloys, and the mass gain is doubled with a temperature change from 650?℃ to 700?℃ or from 700?℃ to 780?℃, for the same exposure duration. TiCr 2 shows no negative influence on the high temperature oxidation resistance of the alloys.
The high temperature oxidation behaviors of Ti Cr alloys containing 18% ~ 35% Cr with Laves phase TiCr 2 were investigated at 650 ~ 780 ° C for exposure up to 104? H. The results reveal that chromium content has a critical significance to the oxidation resistance of the alloys. The scaling rates of the alloys with less than 21% Cr are higher than those measured for pure titanium, but for the alloys with more than 26% Cr their scaling rate is lowered by 1 to 2 times, under the same anodic Both oxidation resistance enhancement by chromium alloying is contributed to the formation of a continuous and compact chromic oxide interleaf in the scale. Oxidation temperature significantly affects the scaling rates of Ti Cr alloys, and the mass gain is doubled with a temperature change from 650 ° C to 700 ° C or from 700 ° C to 780 ° C for the same exposure duration. no negative influence on the high temperature oxidation resistance of the alloys.