The oxidation in air of three two-phase Cu-Cr alloys with nominal Cr c
ontents of 25, 50, and 75 wt. % was studied at 700-900 degrees C. The
alloys corroded nearly parabolically, except at 900 degrees C, when th
e corrosion rates decreased with time more rapidly than predicted by t
he parabolic rate law. The corrosion rate decreased for higher Cr cont
ents in the alloy under constant temperature and generally increased w
ith temperature for the same alloy composition. The scales were comple
x and consisted in most cases of an outermost copper oxide layer free
fr om chromium and an inner layer composed of a matrix of copper oxide
or of the double oxide Cu2Cr2O4, often containing particles of chromi
um metal surrounded by chromia and then by the double oxide, Metallic
copper was also frequently mixed with chromia. Cr-rich regions tended
to form continuous chromia layers at the base of the scale, especially
at the highest temperature. No chromium depletion was observed in the
alloy.