Wang, F, Li, X, Chen, P et al. (2 more authors) (2018) The adjustment of CA(6) morphology and its effect on the thermo-mechanical properties of high temperature composites. Journal of the Ceramic Society of Japan, 126 (12). pp. 977-983. ISSN 0914-5400
Abstract
In this paper, the morphology of CA6 was adjusted by changing the particle sizes of alumina powders (D50 = 7.26, 5.33 and 2.37 µm), and the effect of this on the thermo-mechanical properties of corundum based high temperature composites was investigated. The results indicated that when the alumina particle size was decreased from 7.26 to 2.37 µm, the morphology of calcium hexaluminate (CA6) transformed from equiaxial to platy shape. The microstructure changes of CA6 may be due to differences in CA6 nuclei numbers and the contact area between alumina and calcium dialuminate. This transformation process can proceed without liquid. Because of the transformation of the CA6 morphology, the hot modulus of rupture and residual cold modulus of rupture of corundum composites fired at 1600°C increased by 143 and 192%, respectively. The loop areas of in-situ elastic modulus also increased by 20%. The fracture ways of composites were transformed from intergranular to transgranular. Therefore, corundum-based composites with excellent properties including room temperature and high temperature properties can be obtained by adjusting the microstructure of CA6.
Metadata
Item Type: | Article |
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Authors/Creators: |
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Keywords: | High temperature composites; CA(6); Morphology adjustment; Platy shape; Thermo-mechanical properties |
Dates: |
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Institution: | The University of Leeds |
Academic Units: | The University of Leeds > Faculty of Engineering & Physical Sciences (Leeds) > School of Chemical & Process Engineering (Leeds) |
Depositing User: | Symplectic Publications |
Date Deposited: | 12 Apr 2019 12:39 |
Last Modified: | 12 Apr 2019 12:53 |
Status: | Published |
Publisher: | Ceramic Society of Japan |
Identification Number: | 10.2109/jcersj2.18143 |
Related URLs: | |
Open Archives Initiative ID (OAI ID): | oai:eprints.whiterose.ac.uk:144874 |