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Publication Figures

Publication Date:
2020-01-29

First Author:
D. R. Mason

Title:
Morphological analysis of 3d atom probe data using Minkowski functionals

Paper Identifier:
CP/20/2

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Figure Reference Title Description Number of Figure Data Items Identifier Download Figure Details
12 Morphological analysis of 3d atom probe data using Minkowski functionals.12 An analysis of the morphology of the Ni-Ti superconductor example. Top row left-to-right: Shape nders a) S1, b) S2, c) S3. Bottom row left-to-right: Derived shape nders computed at d) c=40%, e) c=74%, f) c=80%. The arrows indicate the points where the derived shape nders T1 and T2 are computed. At low concentration there is one large volume, but between c = 55% and c = 85% there are three. One is clearly plate like, and a second is ribbon-like, but this could be an artefact of the shape of the atom probe needle. 2 CF/20/4 Download
13 Morphological analysis of 3d atom probe data using Minkowski functionals.13 FIG. 13. An analysis of the morphology of the Inconel 625 example. Top row left-to-right: Shape nders a) S1, b) S2, c) S3. Bottom row left-to-right: Derived shape nders computed at d) c=2.5%, e) c=5.0%, f) c=7.5%. The arrows indicate the points where the derived shape nders T1 and T2 are computed. The shape nders for the isosurfaces show a range of shapes for the inclusions, with some spherical, some oblate and some prolate. 2 CF/20/6 Download
14 Morphological analysis of 3d atom probe data using Minkowski functionals.14 FIG. 14. An analysis of the morphology of the irradiated Eurofer example. Top row left-to-right: Shape nders a) S1, b) S2, c) S3. Bottom row left-to-right: Derived shape nders computed at d) c=0.8%, e) c=1.2%, f) c=1.8%. The arrows indicate the points where the derived shape nders T1 and T2 are computed. The shape nders at c = 0:8 and 1:2% Mn show strong lamentary character to the inclusions, but this structure is not seen at 1:8%. 2 CF/20/8 Download
15 Morphological analysis of 3d atom probe data using Minkowski functionals.15 FIG. 15. An analysis of the morphology of the Ni-Ti superconductor example. Top row left-to-right: Shape nders a) S1, b) S2, c) S3. Bottom row left-to-right: Derived shape nders computed at d) c=40%, e) c=74%, f) c=80%. The arrows indicate the points where the derived shape nders T1 and T2 are computed. At low concentration there is one large volume, but between c = 55% and c = 85% there are three. One is clearly plate like, and a second is ribbon-like, but this could be an artefact of the shape of the atom probe needle. 2 CF/20/10 Download