Articles
  • Strength and gas permeability of porous cordierite-mullite ceramics with different phase compositions and microstructures prepared by a pore-forming in-situ technique
  • Wen Yan*, Nan Li, Yuanyuan Li, Jun Tong and Hao Luo
  • The Key State Laboratory Breeding Base of Refractories and Ceramics, Wuhan University of Science and Technology, Wuhan, P.R. of China
Abstract
Seven porous cordierite-mullite ceramics with different phase compositions and microstructures were fabricated by a poreforming in-situ technique. The phase composition, pore characteristics, strength and thermal shock resistance were investigated through X-ray diffractometry (XRD), scanning electron microscopy (SEM), and a microscopical measured method, etc. It was found that the porous cordierite-mullite ceramics have an apparent and interconnected pore structure; and the strength, the thermal-shock resistance and the gas permeability of the porous cordierite-mullite ceramics with different phase compositions and microstructures are rather different. Additionally, for the porous cordierite-mullite ceramics with an apparent and interconnected pore structure, the gas permeability mainly depends on the median pore size. A porous cordierite-mullite ceramic consisting of 25 wt.% cordierite and 71 wt.% mullite gave the best performance, which had a high porosity of 42.4%, an appropriate median pore size of 42.3 μm, a high compressive strength of 37.7MPa, a high thermal-shock resistance and a high gas permeability of 4.68*10-12 m2.

Keywords: Porous cordierite-mullite ceramics, Microstructure, Phase composition, Strength, Gas permeability

This Article

  • 2013; 14(1): 109-113

    Published on Feb 28, 2013