Preparation and characterization of highly porous Yb2SiO5 ceramics using water-based freeze-casting

Bingyu Han; Rubing Zhang; Daining Fang

doi:10.1007/s10934-015-0110-y

Preparation and characterization of highly porous Yb₂SiO₅ ceramics using water-based freeze-casting

Bingyu Han, Rubing Zhang^*, Daining Fang

^*Corresponding author for this work

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

18 Citations (Scopus)

Abstract

This study introduces a new, highly porous Yb₂SiO₅ ceramic prepared using a water-based freeze-casting technique. The prepared porous Yb₂SiO₅ ceramic had ultra-high porosity (82–86 %) and tailored pore structures. The effects of sintering temperature on the pore structure, thermal conductivity, and mechanical properties of these ceramics were investigated. The sample with 15 vol% solid content prepared at 1450 °C had ultra-low linear shrinkage (4.85 %), ultra-high porosity (83.95 %), high compressive strength (2.15 MPa), and low thermal conductivity (0.121 W/m K). In addition, this sample showed a relatively high compressive strength (1.15 MPa) at 1500 °C. These results highlight the potential application of highly porous Yb₂SiO₅ ceramics as thermal insulator materials in ultra-high temperature environments.

Original language	English
Pages (from-to)	563-568
Number of pages	6
Journal	Journal of Porous Materials
Volume	23
Issue number	2
DOIs	https://doi.org/10.1007/s10934-015-0110-y
Publication status	Published - 1 Apr 2016
Externally published	Yes

Keywords

Freeze casting
Mechanical properties
Porous ceramics
Ultra-high porosity

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10.1007/s10934-015-0110-y

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title = "Preparation and characterization of highly porous Yb2SiO5 ceramics using water-based freeze-casting",

abstract = "This study introduces a new, highly porous Yb2SiO5 ceramic prepared using a water-based freeze-casting technique. The prepared porous Yb2SiO5 ceramic had ultra-high porosity (82–86 %) and tailored pore structures. The effects of sintering temperature on the pore structure, thermal conductivity, and mechanical properties of these ceramics were investigated. The sample with 15 vol% solid content prepared at 1450 °C had ultra-low linear shrinkage (4.85 %), ultra-high porosity (83.95 %), high compressive strength (2.15 MPa), and low thermal conductivity (0.121 W/m K). In addition, this sample showed a relatively high compressive strength (1.15 MPa) at 1500 °C. These results highlight the potential application of highly porous Yb2SiO5 ceramics as thermal insulator materials in ultra-high temperature environments.",

keywords = "Freeze casting, Mechanical properties, Porous ceramics, Ultra-high porosity",

author = "Bingyu Han and Rubing Zhang and Daining Fang",

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AU - Han, Bingyu

AU - Zhang, Rubing

AU - Fang, Daining

PY - 2016/4/1

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N2 - This study introduces a new, highly porous Yb2SiO5 ceramic prepared using a water-based freeze-casting technique. The prepared porous Yb2SiO5 ceramic had ultra-high porosity (82–86 %) and tailored pore structures. The effects of sintering temperature on the pore structure, thermal conductivity, and mechanical properties of these ceramics were investigated. The sample with 15 vol% solid content prepared at 1450 °C had ultra-low linear shrinkage (4.85 %), ultra-high porosity (83.95 %), high compressive strength (2.15 MPa), and low thermal conductivity (0.121 W/m K). In addition, this sample showed a relatively high compressive strength (1.15 MPa) at 1500 °C. These results highlight the potential application of highly porous Yb2SiO5 ceramics as thermal insulator materials in ultra-high temperature environments.

AB - This study introduces a new, highly porous Yb2SiO5 ceramic prepared using a water-based freeze-casting technique. The prepared porous Yb2SiO5 ceramic had ultra-high porosity (82–86 %) and tailored pore structures. The effects of sintering temperature on the pore structure, thermal conductivity, and mechanical properties of these ceramics were investigated. The sample with 15 vol% solid content prepared at 1450 °C had ultra-low linear shrinkage (4.85 %), ultra-high porosity (83.95 %), high compressive strength (2.15 MPa), and low thermal conductivity (0.121 W/m K). In addition, this sample showed a relatively high compressive strength (1.15 MPa) at 1500 °C. These results highlight the potential application of highly porous Yb2SiO5 ceramics as thermal insulator materials in ultra-high temperature environments.

KW - Freeze casting

KW - Mechanical properties

KW - Porous ceramics

KW - Ultra-high porosity

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Preparation and characterization of highly porous Yb₂SiO₅ ceramics using water-based freeze-casting

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Keywords

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