Multiscale investigations of nanoprecipitate nucleation, growth, and coarsening in annealed low-Cr oxide dispersion strengthened FeCrAl powder

Massey, Caleb; Dryepondt, Sébastien; Edmondson, Philip D.; Frith, Matthew G.; Littrell, Kenneth C.; Kini, Anoop; Gault, Baptiste; Terrani, Kurt A.; Zinkle, S.J.

doi:10.1016/j.actamat.2018.11.062

Cited by 52 publications

(18 citation statements)

References 80 publications

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“…This is in agreement with previous studies that already detect precipitates after annealing at 600°C [31,32,34] and gives the onset of precipitation with an unprecedented precision. Massey et al demonstrated a similar continuous increase of scattering between 200, 400 and 500°C related to the nucleation and growth of Y-Al-O precipitates, different in terms of chemistry but close in terms of manufacturing process [33]. Simultaneously, the apparent volume fraction increases.…”

mentioning

confidence: 88%

“…Precipitates were found in all specimens and were observed to coarsen slightly with increasing temperature. On a Fe-10Cr-11.5Al-Zr-Y ODS alloy, Massey et al observed the nucleation and growth of Y-Al-O precipitates from 200°C to 600°C by in-situ SANS analysis [33]. He et al performed in-situ isothermal holding with temperature ranging up to 1000°C using SANS on a Fe-9Cr ODS steel [34], however the limited flux of the neutron source resulted in sparse data in terms of time resolution.…”

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confidence: 99%

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Nano-oxide precipitation kinetics during the consolidation process of a ferritic oxide dispersion strengthened steel.

et al. 2020

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Oxide Dispersion Strengthened (ODS) steels are candidates for nuclear applications. ODS are produced by mechanical alloying of Fe-14Cr, Y2O3 and TiH2 powders and consolidation at 1100°C, resulting in finely dispersed nano-oxides. Their precipitation kinetics has been quantitatively determined by in-situ Small Angle X-ray Scattering during continuous heating up to 1100°C. Clusters, found in the as-milled state start growing at 450°C until 1100°C, while almost no coarsening was recorded during subsequent isothermal annealing. The nano-oxides resulting from these in-situ experiments were found to be representative of those in materials processed by hot isostatic pressing and hot extrusion.

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Nano-oxide precipitation kinetics during the consolidation process of a ferritic oxide dispersion strengthened steel.

et al. 2020

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“…6 the apparent size of the particles as a function of their real size as reported by experimental studies using both SAXS or SANS and APT. The crosses correspond to data from recent literature [41][42][43][44][45][46][47][48][49][50][51] covering a range of alloy systems, including maraging steels, Fe-Cu alloys, ODS-steels, Al-based alloys. We simply plot the values reported in tables or graphs.…”

Section: Comparison With Experimental Reports From the Literaturementioning

confidence: 98%

Metrology of small particles and solute clusters by atom probe tomography

2020

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Atom probe tomography (APT) is routinely used for analyzing property-enhancing particles in the nanometer-size range and below, and plays a prominent role in the analysis of solute clusters. However, the question of how well these small particles are measured has never been addressed because of a lack of a reliable benchmark. Here, to address this critical gap, we use an approach that allows direct comparison of APT and small-angle (X-Ray) scattering (SA(X)S) performed on the same material. We introduce the notion of an effective spatial resolution for the analysis of particles, which, importantly in this context, is very different than the technique's inherent spatial resolution. This effective resolution is highly specific to the system being considered, as well as the analysis conditions. There is no hard limit below which the technique will fail, but for particles with a radius of order of 2σ = 1 nm, i.e. 250 atoms, cannot be accurately measured, even though the particles are detected. This thorough metrological assessment of APT in the analysis of particles allows us to discuss the pulse spread function of the technique and the physics underpinning its limits. We conclude that great care should be taken when analysing solute clusters by APT, in particular when reporting particle size and composition.

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“…Oxide dispersion strengthened (ODS) alloys are considered as the promising structural material candidate for future advanced reactors, due to their excellent performance [ 1 , 2 , 3 ]. The combined addition of Al and Zr elements to the high Cr (≥13 wt.%) ODS alloys can significantly improve corrosion resistance and strength, based on excellent radiation resistance [ 4 , 5 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Hot Rolling on the Microstructure and Properties of Nanostructured 15Cr ODS Alloys with Al and Zr Addition

Chen

Zhang

et al. 2020

Materials

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Oxide dispersion strengthened (ODS) alloys with Al and Zr addition have excellent radiation tolerance, high-temperature strength, and corrosion resistance. The 15Cr-Al-Zr-ODS alloys are processed by mechanical alloying (MA), hot isostatic pressing (HIP), subsequent hot rolling to large strains of 70%, and further annealing. The effect of hot rolling on the microstructure, and the properties of nanostructured 15Cr ODS alloys with Al and Zr addition, were investigated. The microstructure after hot rolling and annealing showed obvious anisotropy. The cubic texture (φ1 = 0°, Φ = 0°, φ2 = 0°) {0 0 1} <1 0 0> and brass-R texture (φ1 = 0°, Φ = 55°, φ2 = 45°) {1 1 1} <1 1 0> were observed. The similar size distribution of precipitates was obtained for the comparison of the hot rolling samples with the hot isostatic pressed samples, which can be attributed to excellent thermal stability. After hot rolling, the alloy showed higher yield strength but did not lose too much plasticity.

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Multiscale investigations of nanoprecipitate nucleation, growth, and coarsening in annealed low-Cr oxide dispersion strengthened FeCrAl powder

Cited by 52 publications

References 80 publications

Nano-oxide precipitation kinetics during the consolidation process of a ferritic oxide dispersion strengthened steel.

Nano-oxide precipitation kinetics during the consolidation process of a ferritic oxide dispersion strengthened steel.

Metrology of small particles and solute clusters by atom probe tomography

Effect of Hot Rolling on the Microstructure and Properties of Nanostructured 15Cr ODS Alloys with Al and Zr Addition

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