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Matrix compositions and their impact on grain growth and strength of oxide ceramic composites.

Authors :
Almeida, Renato S. M.
Rech, Marcelo B. R.
Condi Mainardi, Jéssica
Tushtev, Kamen
Rezwan, Kurosch
Source :
Journal of the American Ceramic Society; Dec2024, Vol. 107 Issue 12, p8442-8458, 17p
Publication Year :
2024

Abstract

Oxide ceramic matrix composites (Ox‐CMCs) are composed of porous matrices reinforced by dense fibers to achieve high damage tolerance. It is generally assumed that their mechanical properties are fiber dominant. However, fiber strength can also be influenced by the surrounding matrix as it can affect fiber grain growth. Fiber–matrix interactions are studied in this work regarding fiber microstructural evolution and composite strength. Minicomposites containing Nextel 610 fibers and different matrix compositions (alumina, alumina–zirconia, and mullite–alumina) are evaluated after sintering and after additional heat treatment at 1200°C for 100 h. Fiber grain growth during sintering is faster in alumina matrix and slower in mullite–alumina matrix. Scanning transmission electron microscope–energy‐dispersive X‐ray spectroscopy (STEM–EDX) measurements show that Si diffuses between fiber and matrix grain boundaries. This outward or inward diffusion of SiO2 leads to the respectively different grain growth kinetics. Grain growth inhibition in alumina–zirconia matrix is only observed after the longer heat treatment, suggesting that ZrO2 diffusion is slower than SiO2. The resultant composite strength depends not only on fiber properties, but also on matrix densification. Minicomposite with alumina–zirconia matrix showed higher strength, while mullite–alumina composites showed higher thermal stability. In summary, the properties of Ox‐CMCs can be tailored by adjusting the matrix composition with the used fibers. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00027820
Volume :
107
Issue :
12
Database :
Complementary Index
Journal :
Journal of the American Ceramic Society
Publication Type :
Academic Journal
Accession number :
180048237
Full Text :
https://doi.org/10.1111/jace.20069