The objective of this paper is to critically analyse the effect of the ?' morphology evolution on the creep strain rate behaviour in the temperature range 900 - 1100°C where rafts form in superalloys for single crystal turbine blade and vane applications. A close examination of the experimental results has shown different regimes of strain accumulation depending on the value of the applied stress and temperature. The experimental results have been rationalised in terms of the ?' shape evolution during creep.
Influence of Gamma Prime Evolution on the Creep Behaviour of SX Nickel Base Superalloys
Maldini M;Lupinc V;Angella G
2011
Abstract
The objective of this paper is to critically analyse the effect of the ?' morphology evolution on the creep strain rate behaviour in the temperature range 900 - 1100°C where rafts form in superalloys for single crystal turbine blade and vane applications. A close examination of the experimental results has shown different regimes of strain accumulation depending on the value of the applied stress and temperature. The experimental results have been rationalised in terms of the ?' shape evolution during creep.File in questo prodotto:
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