Abstract
The mechanical properties of Fe–Al alloys with 39–43at.% Al, C contents up to 4.9at.% and Si contents up to 1.2at.% were studied using uniaxial compressive creep at temperatures from 600 to 800°C. The stress and temperature dependence of the creep rate were determined by stepwise loading and evaluated in terms of the stress exponent n and the activation energy Q, respectively. These quantities can be interpreted by means of dislocation motion controlled by climb and by the presence of second-phase particles. The dislocation motion is obstructed by precipitates of carbide κ in alloys E and F and by particles of Al4C3 in the alloys with either higher content of C or of C and Si. Both carbon and silicon improved the creep resistance, but the effect of silicon was more significant.
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