Advancing characterisation with statistics from correlative electron diffraction and X-ray spectroscopy, in the scanning electron microscope

McAuliffe, Thomas; Foden, Alex; Bilsland, Chris; Mountanou, Dafni Daskalaki; Dye, David; Britton, T. Ben

doi:10.1016/j.ultramic.2020.112944

Cited by 11 publications

(20 citation statements)

References 42 publications

(73 reference statements)

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“…We have previously discussed this effect and other PCA artifacts. [10] VI. CONCLUSIONS From the present study, we are able to draw the following conclusions:…”

Section: Discussionmentioning

confidence: 99%

“…These signals are the principal components of the data matrix. A VARIMAX rotation is performed on the principal components and corresponding (spatial) scores, as per Wilkinson et al [51] and with inclusion of the EDS signal as per McAuliffe et al [10] This rotation acts to maximize and equalize the variance of the principal components. We then enforce positivity on the rotated components, mimicking the statistics of experimentally measured EBSPs to obtain physically meaningful results.…”

Section: Phase Classificationmentioning

confidence: 99%

“…A certain proportion of variance is assigned to EBSD information, and the remainder to EDS. As discussed further in our previous work, [10] this has the effect of selecting the effective interaction volume of our analysis pipeline. Biasing toward EBSD information gives a finer effective spatial resolution of principal component spatial scoring.…”

Section: Phase Classificationmentioning

confidence: 99%

“…We have previously shown that these give very similar results, as the VARIMAX rotation applied to make the principal component EBSPs physical has a similar effect on the EDS spectra. [10] Presently we have elected to quantify the average spectrum for each label and quantified compositions using Bruker Esprit 2.1. Subsequently we numerically average the at pct chemistries of each phase by alloy and present in Figure 6 trends in phase chemistry across the alloy series.…”

Section: A Grain Boundary Precipitationmentioning

confidence: 99%

“…Intergranular precipitates are quickly and accurately classified using a correlative electron backscatter diffraction (EBSD)/energy dispersive X-ray spectroscopy (EDS) approach. [10] We examine the robustness of the classification, present chemical statistics as a function of precipitate structure, and compare our observations to thermodynamic modeling. We also briefly investigate the effect of intergranular phase morphology on grain boundary control.…”

Section: Introductionmentioning

confidence: 99%

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Quantitative Precipitate Classification and Grain Boundary Property Control in Co/Ni-Base Superalloys

McAuliffe

Bantounas

Reynolds

et al. 2021

Metall Mater Trans A

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A correlative approach is employed to simultaneously assess structure and chemistry of (carbide and boride) precipitates in a set of novel Co/Ni-base superalloys. Structure is derived from electron backscatter diffraction (EBSD) with pattern template matching, and chemistry obtained with energy dispersive X-ray spectroscopy (EDS). It is found that the principal carbide in these alloys is Mo and W rich with the M6C structure. An M2B boride also exhibiting Mo and W segregation is observed at B levels above approximately 0.085 at. pct. These phases are challenging to distinguish in an SEM with chemical information (EDS or backscatter Z-contrast) alone, without the structural information provided by EBSD. Only correlative chemical and structural fingerprinting is necessary and sufficient to fully define a phase. The identified phases are dissimilar to those predicted using ThermoCalc. We additionally perform an assessment of the grain boundary serratability in these alloys, and observe that significant amplitude is only obtained in the absence of pinning intergranular precipitates.

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“…We have previously discussed this effect and other PCA artifacts. [10] VI. CONCLUSIONS From the present study, we are able to draw the following conclusions:…”

Section: Discussionmentioning

confidence: 99%

Section: Phase Classificationmentioning

confidence: 99%

Section: Phase Classificationmentioning

confidence: 99%

Section: A Grain Boundary Precipitationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Quantitative Precipitate Classification and Grain Boundary Property Control in Co/Ni-Base Superalloys

McAuliffe

Bantounas

Reynolds

et al. 2021

Metall Mater Trans A

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Evolution of local misorientations in the γ/γ’‐microstructure of single crystal superalloys during creep studied with the rotation vector baseline (RVB) EBSD method

Gamanov,

Dlouhy,

Bürger

et al. 2023

Microscopy Res & Technique

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The present work uses the rotation vector baseline electron back scatter orientation imaging method (RVB‐EBSD) to study the evolution of small misorientations between the γ‐ and γ′‐phase in Ni‐base single crystal superalloys (SXs) during creep. For this purpose, two material states of the SX ERBO1 (CMSX4 type) were characterized after creep deformation at 850°C and 600 MPa to final strains of 1% and 2%. Obtaining reliable phase boundary misorientation (PBM), kernel average misorientation (KAM) and orientation spread (OS) data represents a challenge for electron backscatter diffraction (EBSD), not only because the method operates at its limits of lateral and angular resolution, but also because it is difficult to differentiate between the two phases merely based on Kikuchi diffraction. The two phases differ in chemical composition which gives rise to different EBSD background intensities. These can be exploited to differentiate between the two phases. In the present work, crystallographic and chemical information are combined to demonstrate that orientation imaging can be used to document the formation of dislocation networks at γ/γ′‐interfaces and the filling of γ‐channels by dislocations. These findings are in good agreement with reference results from diffraction contrast scanning transmission electron microscopy. It is also shown that misorientations evolve between small groups of equally oriented γ/γ′‐neighborhoods, on a size scale above characteristic γ/γ′‐dimensions (>0.5 μm) and below distances associated with dendritic mosaicity (<200 μm). The methodological aspects as well as the new material specific results are discussed in the light of previous work published in the literature.Research Highlights Microstructure evolution during [001] tensile creep of Ni‐based single‐crystalline alloy. Application of RVB‐EBSD technique, focused on angular misorientations between γ/γ′ phases, with accuracy of 0.01°. Separation of γ/γ′ phases using experimental post‐processing of raw EBSD data.

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“Microstructure Informatics” of Polycrystalline Ni-Base Superalloys Using Computer Vision Techniques to Understand Properties and Performance

Thome,

Arciniaga,

Tin

2024

The Minerals, Metals &Amp; Materials Series

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Advancing characterisation with statistics from correlative electron diffraction and X-ray spectroscopy, in the scanning electron microscope

Cited by 11 publications

References 42 publications

Quantitative Precipitate Classification and Grain Boundary Property Control in Co/Ni-Base Superalloys

Quantitative Precipitate Classification and Grain Boundary Property Control in Co/Ni-Base Superalloys

Evolution of local misorientations in the γ/γ’‐microstructure of single crystal superalloys during creep studied with the rotation vector baseline (RVB) EBSD method

“Microstructure Informatics” of Polycrystalline Ni-Base Superalloys Using Computer Vision Techniques to Understand Properties and Performance

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