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Abstract
The microstructural patterns formed during liquid to solid phase transformations control the properties of a wide range of materials. We developed a novel methodology that enables in situ quantification of the microstructures formed during solidification of high temperature advanced alloys via synchrotron tomography. The patterns formed are captured in 4D (3D plus time) using a methodology which exploits three separate advances: a bespoke high temperature environment cell; the development of high X-ray contrast alloys; and a novel environmental encapsulation system. This methodology is demonstrated on Ni, Fe, and Co advanced alloy systems, revealing dendritic pattern formation. We present detailed quantification of microstructural pattern evolution in a novel high attenuation contrast Co-Hf alloy, including microstructural patterning and dendrite tip velocity. The images are quantified to provide 4D experimental data of growth and coarsening mechanisms in Co alloys, which are used for a range of applications from energy to aerospace.
Original language | English |
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Pages (from-to) | 241-248 |
Number of pages | 8 |
Journal | Acta Materialia |
Volume | 128 |
Early online date | 8 Feb 2017 |
DOIs | |
Publication status | Published - 15 Apr 2017 |
Keywords
- 4D imaging
- Dendritic microstructures
- Interfacial patterns
- Superalloys
- Synchrotron tomography
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Dive into the research topics of 'Revealing dendritic pattern formation in Ni, Fe and Co alloys using synchrotron tomography'. Together they form a unique fingerprint.Projects
- 1 Finished
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Structural Evolution across multiple time and length scales
Withers, P. (PI), Cartmell, S. (CoI), Cernik, R. (CoI), Derby, B. (CoI), Eichhorn, S. (CoI), Freemont, A. (CoI), Hollis, C. (CoI), Mummery, P. (CoI), Sherratt, M. (CoI), Thompson, G. (CoI) & Watts, D. (CoI)
1/06/11 → 31/05/16
Project: Research