Microstructure evolution and properties of silica-based ceramic cores reinforced by mullite fibers

Composite ceramic cores reinforced by different contents of mullite fibers were prepared via injection molding. With increasing mullite fibers, the porosity showed near-exponential increase due to the accumulation of fibers, and the leaching rate showed the similar tendency attributed to the increas...

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Bibliographic Details
Published in:Journal of alloys and compounds 2020-07, Vol.829, p.154494, Article 154494
Main Authors: Niu, Shuxin, Xu, Xiqing, Li, Xin, Chen, Xin, Luo, Yushi
Format: Article
Language:English
Subjects:
Ceramic cores
Ceramic fibers
Ceramics
Crack initiation
Creep strength
Flexural strength
Fracture mechanics
High temperature
Injection molding
Leaching
Mechanical property
Microcracks
Mullite
Mullite fibers
Porosity
Reinforcement
Room temperature
Silicon dioxide
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Summary:Composite ceramic cores reinforced by different contents of mullite fibers were prepared via injection molding. With increasing mullite fibers, the porosity showed near-exponential increase due to the accumulation of fibers, and the leaching rate showed the similar tendency attributed to the increasing porosity for the permeation of alkali solution. At room temperature or 1550 °C, the flexural strength increased as the fibers contents were below 3 wt%, due to the micro-cracking and fiber extraction; however, the flexural strength degraded as the mullite fibers contents was 4 wt%, due to the high porosity. Compared to the others, the ceramic cores with 3 wt% mullite fibers showed excellent properties, including apparent porosity of 35.2%, linear shrinkage of 0.81%, flexural strength being 25.5 MPa at room temperature and 22.3 MPa at 1550 °C, creep deformation of 0.12 mm and leaching rate of 0.34 g/min, well meeting the demands of hollow blades casting. This paper may provide new guidance for high-property ceramic cores. •Ceramic cores were reinforced by mullite fibers.•Ceramic cores with 3wt% mullite fibers exhibited superior properties.•The reinforcement was due to the micro-cracking and fiber extraction.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2020.154494