Technical note Relationship between degeneration of M₇ C₃ and precipitation of M₂₃ C₆ in a cobalt base superalloy

Author： Jiang W.H. Yao X.D. Guan H.R. Hu Z.Q.

ISSN： 1743-2847

Source： Materials Science and Technology, Vol.15, Iss.5, 1999-05, pp. : 596-598

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Abstract

The relationship between degeneration of the primary M₇ C₃ carbide and precipitation of the secondary M₂₃ C₆ carbide has been investigated in a cobalt base superalloy after 100 h aging at 850°C. The results indicated that the primary M₇ C₃ carbide could not transform in situ into the secondary M₂₃ C₆ carbide. The M₂₃ C₆ formed by a direct reaction between chromium and carbon atoms. The dissolution of M₇ C₃ provided the precipitation of M₂₃ C₆ with essential carbon, which acted as a carbon reservoir. Near M₇ C₃ , the chromium content is a controlling factor of M₂₃ C₆ precipitation, while away from it, the carbon content dominated the reaction. The precipitate free zone around M₇ C₃ is attributed to chromium depletion which is inherited from the as cast condition.