Processing of layered porous mullite ceramics

In the current study, layered porous mullite ceramics with different pore sizes were produced via polymeric sponge method by using CC31 commercial-grade kaolin as starting raw material. Polyurethane sponges with three different pore sizes (10, 20, and 30 ppi) changing from coarse to fine pores were...

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Veröffentlicht in:Journal of the Australian Ceramic Society 2018-09, Vol.54 (3), p.545-555
Hauptverfasser: Kalemtaş, Ayşe, Özey, Nigar, Aytekin Aydin, Meryem Türkay
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Sprache:eng
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Zusammenfassung:In the current study, layered porous mullite ceramics with different pore sizes were produced via polymeric sponge method by using CC31 commercial-grade kaolin as starting raw material. Polyurethane sponges with three different pore sizes (10, 20, and 30 ppi) changing from coarse to fine pores were physically assembled and then prepared ceramic slurry was impregnated into this structure to achieve the designed layered porous structure. After drying the polymeric sponges impregnated with the slurry, binder burnout and sintering studies were carried out. Phase composition and microstructure evolution of the porous samples, sintered at 1300°-1600°C for 1 and 3 h dwell time at a 3°C/minute constant heating rate, were investigated. In situ mullite phase formation was achieved at all sintering conditions. It was determined that mullite grain morphology development strongly depends on the sintering temperature and time. Sintering at 1300 °C for 1 h resulted in the formation of equiaxed mullite grains. When the sintering temperature was increased to 1400 °C, first elongated fine mullite grains were achieved. Increasing dwell time at this temperature from 1 to 3 h resulted in more elongated mullite grain development. It was observed that aspect ratio of the mullite grains was significantly increased when the sintering temperature was increased to 1500 and 1600 °C. Scanning electron microscopy investigations demonstrated that the mullite needles do not reveal a significant preferred orientation and all porous mullite samples have uniform microstructure. It was determined that highly porous (60–70%) and light weight (0.7–1.1 g cm −3 ) layered mullite ceramics were fabricated.
ISSN:2510-1560
2510-1579
DOI:10.1007/s41779-018-0183-6