Low cost, single-phase porous cordierite ceramics are successfully synthesized by in-situ solid-state reactions from fly ash, quartz, and magnesite. The effects of sintering temperature and magnesite content on phase transformation, open porosity, bulk density, mechanical properties, and microst...detailed
This study aims to reveal the effects of the concentrations of solids and dispersing agents on the rheological properties of the suspensions prepared from multicomponent cordierite precursor powder system and on the final properties of the cordierite bodies consolidated by slip casting. For this...detailed
In order to study the reaction process and mechanism of the system of cordierite with zirconia, the mixture of cordierite and zirconia was pressed and fired at different temperatures from 1150 to 1460 °C to study the reaction process and mechanism of cordierite with zirconia. The phase composit...detailed
Porous cordierite ceramics with a single phase, high porosity and high strength were in-situ prepared using periclase, alumina and silica powders as raw materials by foam-gelcasting technique firstly. The reaction mechanism of preparing process was investigated via TG-DTA, X-ray diffraction, sca...detailed