Analysis of atomic distribution near grain boundary in Zr Sn Nb Fe-(Cu) alloys by atom probe tomography

AbstractAtom probe tomography is used to observe the solute distribution in electrodeposited nanocrystalline Ni-W alloys with three different grain sizes (3, 10, and 20 nm) and the results are compared with atomistic computer simulations. The presence of grain boundary segregation is confirmed by detailed analysis of composition fluctuations in both experimental and simulated structures, and its extent quantified by a frequency distribution analysis. In contrast to other nanocrystalline alloys, the present Ni-W alloys exhibit only a subtle amount of solute segregation to the intergranular regions. This finding is consistent with quantitative predictions for these alloys based upon a thermodynamic model of grain boundary segregation.

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Evolution of Nanostructure during the Early Stages of Ageing in Al-Zn-Mg-Cu Alloys

Materials Science Forum ◽

10.4028/www.scientific.net/msf.519-521.555 ◽

2006 ◽

Vol 519-521 ◽

pp. 555-560 ◽

Cited By ~ 7

Author(s):

Peter V. Liddicoat ◽

Tomoyuki Honma ◽

L.T. Stephenson ◽

Simon P. Ringer

Keyword(s):

Atom Probe Tomography ◽

Atom Probe ◽

Age Hardening ◽

Peak Hardness ◽

Cu Alloys ◽

Transmission Electron ◽

Element Species ◽

Hardness Increase ◽

Solute Interactions ◽

Effect Of Copper

During age-hardening of certain Al-Zn-Mg-Cu alloys, a 90% hardness increase can occur with 75 seconds. The clustering and precipitation of solute element species during this early rapid hardening (RH) period has been investigated through atom probe tomography, transmission electron microscopy, and Vickers hardness measurements. This study has focussed on the effect of copper by analysing three alloys; Al-2.0Zn-1.8Mg-0.7Cu, Al-2.0Zn-1.7Mg-0.2Cu and Al-1.9Zn-1.7Mg (at.%). The early RH reaction in these alloys accounts for up to 70% of the total hardening (peak hardness minus as-quenched hardness) and takes place during the first 60 seconds of ageing. We report preferred solute-solute interactions in the as-quenched materials. This quenched-in nanostructure acts as a template for subsequent solute clustering, the nature of which we have correlated with ageing.

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Atom Probe Tomography investigations on grain boundary segregation in polycrystalline Ti(C,N) and Zr(C,N) CVD coatings

Scripta Materialia ◽

10.1016/j.scriptamat.2018.11.041 ◽

2019 ◽

Vol 162 ◽

pp. 335-340 ◽

Cited By ~ 3

Author(s):

Idriss El Azhari ◽

Jenifer Barrirero ◽

José García ◽

Flavio Soldera ◽

Luis Llanes ◽

...

Keyword(s):

Grain Boundary ◽

Atom Probe Tomography ◽

Boundary Segregation ◽

Atom Probe ◽

Grain Boundary Segregation

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Examinations of Oxidation and Sulfidation of Grain Boundaries in Alloy 600 Exposed to Simulated Pressurized Water Reactor Primary Water

Microscopy and Microanalysis ◽

10.1017/s1431927613000421 ◽

2013 ◽

Vol 19 (3) ◽

pp. 676-687 ◽

Cited By ~ 48

Author(s):

D.K. Schreiber ◽

M.J. Olszta ◽

D.W. Saxey ◽

K. Kruska ◽

K.L. Moore ◽

...

Keyword(s):

Electron Microscopy ◽

Grain Boundary ◽

Grain Boundaries ◽

Atom Probe Tomography ◽

Atom Probe ◽

Alloy 600 ◽

Pressurized Water Reactor ◽

Intergranular Attack ◽

Pressurized Water ◽

Primary Water

AbstractHigh-resolution characterizations of intergranular attack in alloy 600 (Ni-17Cr-9Fe) exposed to 325°C simulated pressurized water reactor primary water have been conducted using a combination of scanning electron microscopy, NanoSIMS, analytical transmission electron microscopy, and atom probe tomography. The intergranular attack exhibited a two-stage microstructure that consisted of continuous corrosion/oxidation to a depth of ~200 nm from the surface followed by discrete Cr-rich sulfides to a further depth of ~500 nm. The continuous oxidation region contained primarily nanocrystalline MO-structure oxide particles and ended at Ni-rich, Cr-depleted grain boundaries with spaced CrS precipitates. Three-dimensional characterization of the sulfidized region using site-specific atom probe tomography revealed extraordinary grain boundary composition changes, including total depletion of Cr across a several nm wide dealloyed zone as a result of grain boundary migration.

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Atom-probe tomography of surface oxides and oxidized grain boundaries in alloys from nuclear reactors

MRS Proceedings ◽

10.1557/opl.2013.389 ◽

2013 ◽

Vol 1514 ◽

pp. 107-118 ◽

Cited By ~ 2

Author(s):

Karen Kruska ◽

David W Saxey ◽

Takumi Terachi ◽

Takuyo Yamada ◽

Peter Chou ◽

...

Keyword(s):

Grain Boundary ◽

Grain Boundaries ◽

Atom Probe Tomography ◽

Nuclear Reactors ◽

Bulk Material ◽

Chemical Characterization ◽

Atom Probe ◽

Aqueous Environment ◽

Pressurized Water ◽

Surface Oxides

ABSTRACTThe preparation of site-specific atom-probe tomography (APT) samples containing localized features has become possible with the use of focused ion beams (FIBs). This technique was used to achieve the analysis of surface oxides and oxidized grain boundaries in this paper. Transmission electron microscopy (TEM), providing microstructural and chemical characterization of the same features, has also been used, revealing crucial additional information.The study of grain boundary oxidation in stainless steels and nickel-based alloys is required in order to understand the mechanisms controlling stress corrosion cracking in nuclear reactors. Samples oxidized under simulated pressurized water reactor primary water conditions were used, and FIB lift-out TEM and APT specimens containing the same oxidized grain boundary were prepared and fully characterized. The results from both techniques were found fully consistent and complementary.Chromium-rich spinel oxides grew at the surface and into the bulk material, along grain boundaries. Nickel was rejected from the oxides and accumulated ahead of the oxidation front. Lithium, which was present in small quantities in the aqueous environment during oxidation, was incorporated in the oxide. All phases were accurately quantified and the effect of different experimental parameters were analysed.

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