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| Hauptseite > Publikationsdatenbank > Identification, Size Classification and Evolution of Laves Phase Precipitates in High Chromium, Fully Ferritic Steels |
| Hauptseite > Publikationsdatenbank > Identification, Size Classification and Evolution of Laves Phase Precipitates in High Chromium, Fully Ferritic Steels |
| Journal Article | FZJ-2017-07118 |
; ;
2017
Elsevier
New York, NY [u.a.]
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Please use a persistent id in citations: doi:10.1016/j.micron.2017.07.010
Abstract: To fulfil the new challenges of the German “Energiewende” more efficient, sustainable, flexible and cost-effective energy technologies are strongly needed. For a reduction of consumed primary resources higher efficiency steam cycles with increased operating parameters, pressure and temperature, are mandatory. Therefore advanced materials are needed. The present study focuses on a new concept of high chromium, fully ferritic steels. These steels, originally designed for solid oxide fuel cell applications, provide favourable steam oxidation resistance, creep and thermomechanical fatigue behaviour in comparison to conventional ferritic-martensitic steels. The strength of this type of steel is achieved by a combination of solid-solution hardening and precipitation strengthening by intermetallic Laves phase particles. The effect of alloy composition on particle composition was measured by energy dispersive X-ray spectroscopy and partly verified by thermodynamic modelling results. Generally the Laves phase particles demonstrated high thermodynamic stability during long-term annealing up to 40,000 h at 600 °C. Variations in chemical alloy composition influence Laves phase particle formation and consequently lead to significant changes in creep behaviour. For this reason particle size distribution evolution was analysed in detail and associated with the creep performance of several trial alloys.
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