Fabrication and properties of fibrous porous mullite–zirconia fiber networks with a quasi-layered structure

Rubing Zhang; Xianbo Hou; Changshou Ye; Baolin Wang; Daining Fang

doi:10.1016/j.jeurceramsoc.2016.06.003

Fabrication and properties of fibrous porous mullite–zirconia fiber networks with a quasi-layered structure

Rubing Zhang^*, Xianbo Hou, Changshou Ye, Baolin Wang, Daining Fang

^*Corresponding author for this work

Institute of Advanced Structure Technology

Research output: Contribution to journal › Article › peer-review

45 Citations (Scopus)

Abstract

A novel anisotropy porous mullite fiber network with a quasi-layered microstructure was prepared by vacuum squeeze moulding and sintering. The effects of the initial pressure used in vacuum moulding on the microstructure, thermal properties and mechanical properties of the fibrous porous mullite ceramic were studied. Zirconia fiber was introduced into the ceramic, and the effects of altering the fiber content on the pore structure, porosity and properties of the final ceramic were investigated. Results show that the ceramics prepared in this study exhibited high compressive strength (∼5.16 MPa in the x/y direction) and low thermal conductivity (∼0.094 W/(m K)). This study also reports an optimal processing method for the production of fibrous porous mullite–zirconia composites, which have the potential for use as ultra-high-temperature thermal insulation material.

Original language	English
Pages (from-to)	3539-3544
Number of pages	6
Journal	Journal of the European Ceramic Society
Volume	36
Issue number	14
DOIs	https://doi.org/10.1016/j.jeurceramsoc.2016.06.003
Publication status	Published - 1 Nov 2016

Keywords

Fibers
Mechanical property
Porous ceramics
Thermal conductivity

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10.1016/j.jeurceramsoc.2016.06.003

Cite this

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title = "Fabrication and properties of fibrous porous mullite–zirconia fiber networks with a quasi-layered structure",

abstract = "A novel anisotropy porous mullite fiber network with a quasi-layered microstructure was prepared by vacuum squeeze moulding and sintering. The effects of the initial pressure used in vacuum moulding on the microstructure, thermal properties and mechanical properties of the fibrous porous mullite ceramic were studied. Zirconia fiber was introduced into the ceramic, and the effects of altering the fiber content on the pore structure, porosity and properties of the final ceramic were investigated. Results show that the ceramics prepared in this study exhibited high compressive strength (∼5.16 MPa in the x/y direction) and low thermal conductivity (∼0.094 W/(m K)). This study also reports an optimal processing method for the production of fibrous porous mullite–zirconia composites, which have the potential for use as ultra-high-temperature thermal insulation material.",

keywords = "Fibers, Mechanical property, Porous ceramics, Thermal conductivity",

author = "Rubing Zhang and Xianbo Hou and Changshou Ye and Baolin Wang and Daining Fang",

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T1 - Fabrication and properties of fibrous porous mullite–zirconia fiber networks with a quasi-layered structure

AU - Zhang, Rubing

AU - Hou, Xianbo

AU - Ye, Changshou

AU - Wang, Baolin

AU - Fang, Daining

PY - 2016/11/1

Y1 - 2016/11/1

N2 - A novel anisotropy porous mullite fiber network with a quasi-layered microstructure was prepared by vacuum squeeze moulding and sintering. The effects of the initial pressure used in vacuum moulding on the microstructure, thermal properties and mechanical properties of the fibrous porous mullite ceramic were studied. Zirconia fiber was introduced into the ceramic, and the effects of altering the fiber content on the pore structure, porosity and properties of the final ceramic were investigated. Results show that the ceramics prepared in this study exhibited high compressive strength (∼5.16 MPa in the x/y direction) and low thermal conductivity (∼0.094 W/(m K)). This study also reports an optimal processing method for the production of fibrous porous mullite–zirconia composites, which have the potential for use as ultra-high-temperature thermal insulation material.

AB - A novel anisotropy porous mullite fiber network with a quasi-layered microstructure was prepared by vacuum squeeze moulding and sintering. The effects of the initial pressure used in vacuum moulding on the microstructure, thermal properties and mechanical properties of the fibrous porous mullite ceramic were studied. Zirconia fiber was introduced into the ceramic, and the effects of altering the fiber content on the pore structure, porosity and properties of the final ceramic were investigated. Results show that the ceramics prepared in this study exhibited high compressive strength (∼5.16 MPa in the x/y direction) and low thermal conductivity (∼0.094 W/(m K)). This study also reports an optimal processing method for the production of fibrous porous mullite–zirconia composites, which have the potential for use as ultra-high-temperature thermal insulation material.

KW - Fibers

KW - Mechanical property

KW - Porous ceramics

KW - Thermal conductivity

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VL - 36

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IS - 14

ER -

Fabrication and properties of fibrous porous mullite–zirconia fiber networks with a quasi-layered structure

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Keywords

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