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Precipitation of carbides during tempering of a martensitic Fe 0.16 wt% C 4.0 wt% Cr alloy has been investigated by experimental analysis and quantitative modeling.
A quantitative investigation of phase decomposition in Fe-35 at.% Cr alloy aged at 773 K was performed by using atom probe tomography (APT) and phase-field simulation.
In addition, post-irradiation annealing treatments at 500 and 600 °C were performed on a neutron-irradiated Fe-18 Cr alloy to validate the α-α′ phase boundary.
The 50%Ni 50%Cr alloy coating produced by the detonation spray method exhibited the most corrosion resistance in a laboratory test.
Cu-Ni-V or Cu-Ni-V orfilms were deposited direCu-Ni-V orngle Crystalloy(100) substrates, without a designated barrier layer, subsequently annealed in vacuum.
Results from SEM and XRD analyses reveal the progressive formation of nanocrystalline Al2O3 grains embedded in the micron-sized Ni(Cr) alloy particles.
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Fe is mostly found as magnetite (Fe3O4), chromite (FeCr2O4), franklinite (ZnFe2O4) and Fe-Cr Alloy.
The radiant tube was manufactured by centrifugal casting with high Ni-Cr alloy steel.
Characteristic particulates from the dust could be found in this sample, namely, Fe-Cr Alloy (Fig. 6, phase 1), (Fe, Cr 3O4 (Fig. 6, phase 2), and (Ca, Mg O (Fig. 6, phase 3).
Pure Ti and Ti-Cr alloy films displayed (002) and (110) preferred orientations, respectively.
As support, a Fe-Cr alloy with a porous structure was used.
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