Lenz M, Wirth J, Englisch S, Rosiwal J, Buchinger N, Weiser M, Virtanen S, Apeleo Zubiri B, Spiecker E (2019)
Publication Type: Journal article
Publication year: 2019
Article Number: 1900823
Herein, the capabilities of a correlative tomography approach combining laboratory nano X-ray computed tomography, focused ion-beam sectioning, and energy-dispersive X-ray spectroscopy are utilized for the characterization of multilayered oxide scales of Co-base superalloys regarding their 3D morphology and chemical composition. The combination of complementary 3D imaging techniques allows for a precise and reliable segmentation of the pore space, oxide precipitates, and different phases of the initial material. Such information is instrumental to a microscopic understanding of oxidation in this new class of superalloys and key to improvement of oxidation resistance in the next-generation high-temperature materials.
APA:
Lenz, M., Wirth, J., Englisch, S., Rosiwal, J., Buchinger, N., Weiser, M.,... Spiecker, E. (2019). Correlative Nano-Computed Tomography and Focused Ion-Beam Sectioning: A Case Study on a Co-Base Superalloy Oxide Scale. Advanced Engineering Materials. https://doi.org/10.1002/adem.201900823
MLA:
Lenz, Malte, et al. "Correlative Nano-Computed Tomography and Focused Ion-Beam Sectioning: A Case Study on a Co-Base Superalloy Oxide Scale." Advanced Engineering Materials (2019).
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