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Synthesis and characterization of Celsian by solid‐state reaction process from mullite

Tenglong Guo, Yuanbing Li, Shujing Li, Zhe Qiao, Jingfei Liu, Xiaoxiao Li

2023Journal of the American Ceramic Society11 citationsDOI

Abstract

Abstract Monolithic barium aluminosilicate (Celsian), with good thermal shock resistance, high thermal stability, and strong versatility, is attractive material as a ceramic matrix for high‐temperature composites. However, Celsian cannot be precipitated directly during the synthesis process but can only be generated by crystallographic transformation of the metastable Hexacelsian at high temperatures, and this process is sluggish. In this study, mullite was chosen as the main raw material for the synthesis of Celsian with almost fully monoclinic through a simple one‐step solid‐state reaction process at a lower temperature and shorter time, which was investigated using differential thermal analysis, phase identification, microstructure observation, and FactSage thermodynamic calculations. The results showed that mullite is a favorable raw material for the synthesis of Celsian, effectively avoiding the appearance of BaAl 2 O 4 in Hexacelsia, making it possible to synthesize Celsian with almost fully monoclinic with only 4.5 h of holding at 1300°C. This is a significant improvement compared to the higher temperatures and longer holding times required for the synthesis of Celsian from other raw materials, according to previous literature.

Topics & Concepts

MulliteMaterials scienceMonoclinic crystal systemRaw materialMicrostructureCeramicChemical engineeringMineralogyThermal shockMetallurgyCrystallographyCrystal structureChemistryEngineeringOrganic chemistryAdvanced ceramic materials synthesisNuclear materials and radiation effectsMicrowave Dielectric Ceramics Synthesis
Synthesis and characterization of Celsian by solid‐state reaction process from mullite | Litcius