4.7 Article

Preparation of calcium hexaluminate porous ceramics by novel pectin based gelcasting freeze-drying method

期刊

CERAMICS INTERNATIONAL
卷 47, 期 7, 页码 9017-9023

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2020.12.024

关键词

Calcium hexaluminate; Porous ceramics; Gelcasting; Freeze-drying; Pectin

资金

  1. National Natural Science Foundation of China [51974074, 51874083, 51404056]
  2. State Key Program of National Natural Science Foundation of China [51932008]
  3. Fundamental Research Funds for the Central Universities [N182504009, N2025036]

向作者/读者索取更多资源

High-purity calcium hexaluminate (CA(6)) porous ceramics were prepared using a novel pectin based gelcasting freeze-drying method, with investigations on the effects of solid content on material properties. The pores in CA(6) ceramics were mainly formed through water molecules sublimation and organic decomposition during freeze-drying. The ceramics exhibited high apparent porosity, low bulk density, low thermal conductivity, and relatively high compressive strength, meeting requirements for functional and structural applications.
High-purity calcium hexaluminate (CA(6)) porous ceramics have been prepared with novel pectin based gelcasting freeze-drying method. CaCO3 and Al2O3 were used as raw materials and ficus pumila pectin was used as gelling agent. Effects of solid content on properties of CA(6) porous ceramics, such as phase composition, microstructural characteristics, apparent porosity, bulk density, compressive strength, and thermal conductivity have been investigated. Pores in CA(6) ceramics are found to be mainly formed by water molecules sublimation during freeze-drying and organic decomposition processes. Moreover, freeze-drying method is shown to be beneficial to improve heat insulation performance of porous ceramics. As-prepared CA(6) porous ceramics with different solid contents possess high apparent porosity of 66.4-75.1%, low bulk density of 0.90-1.20 g/cm(3), low thermal conductivity of 0.227-0.360 W/(mK), and relatively high compressive strength of 0.71-2.06 MPa, which fully meet requirements for their functional and structural applications.

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