Fabrication of nanoporous silicon carbide fibres by thermal treatment

D. G. Shin; K. Y. Cho; Y. Kim; W. T. Kwon; S. R. Kim; Y. J. Lee; D. H. Riu

doi:10.1179/1743676114Y.0000000167

Fabrication of nanoporous silicon carbide fibres by thermal treatment

D. G. Shin, K. Y. Cho, Y. Kim, W. T. Kwon, S. R. Kim, Y. J. Lee, D. H. Riu

Dept. of Materials Science & Engineering

Korea Institute of Ceramic Engineering And Technology

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

2 Scopus citations

Abstract

Nanoporous silicon carbide fibres were prepared by curing and heat treatment of melt spun polycarbosilane (PCS) fibres. During the curing process, green PCS fibres were thermally oxidised at the temperature between 180 and 220°C and time between 2 and 10 h for crosslinking among the molecule chains in the PCS and controlling the oxygen concentration and distribution. After thermal oxidation, fibres were heat-treated between 1200 and 1600°C for the conversion to SiC phase. About 15-20 wt-% of oxygen was analysed after heat treatment at 1200°C and it can be possible to pyrolyse without melting or deformation of fibre. At a temperature above 1400°C, the uniform distribution of nanopores was observed on the fibre surface, and the size of pores was increased with curing and heating condition. This type of nanoporous SiC fibre is expected to be a good candidate for high temperature catalyst or catalytic supports.

Original language	English
Pages (from-to)	341-345
Number of pages	5
Journal	Advances in Applied Ceramics
Volume	113
Issue number	6
DOIs	https://doi.org/10.1179/1743676114Y.0000000167
State	Published - Aug 2014

Keywords

Catalytic support
Curing
Energy efficiency
Heat treatment
Nanoporous
SiC fibre
Thermal oxidation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1179/1743676114Y.0000000167

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title = "Fabrication of nanoporous silicon carbide fibres by thermal treatment",

abstract = "Nanoporous silicon carbide fibres were prepared by curing and heat treatment of melt spun polycarbosilane (PCS) fibres. During the curing process, green PCS fibres were thermally oxidised at the temperature between 180 and 220°C and time between 2 and 10 h for crosslinking among the molecule chains in the PCS and controlling the oxygen concentration and distribution. After thermal oxidation, fibres were heat-treated between 1200 and 1600°C for the conversion to SiC phase. About 15-20 wt-\% of oxygen was analysed after heat treatment at 1200°C and it can be possible to pyrolyse without melting or deformation of fibre. At a temperature above 1400°C, the uniform distribution of nanopores was observed on the fibre surface, and the size of pores was increased with curing and heating condition. This type of nanoporous SiC fibre is expected to be a good candidate for high temperature catalyst or catalytic supports.",

keywords = "Catalytic support, Curing, Energy efficiency, Heat treatment, Nanoporous, SiC fibre, Thermal oxidation",

author = "Shin, \{D. G.\} and Cho, \{K. Y.\} and Y. Kim and \{T. Kwon\}, W. and Kim, \{S. R.\} and Lee, \{Y. J.\} and Riu, \{D. H.\}",

year = "2014",

month = aug,

doi = "10.1179/1743676114Y.0000000167",

language = "English",

volume = "113",

pages = "341--345",

journal = "Advances in Applied Ceramics",

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number = "6",

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TY - JOUR

T1 - Fabrication of nanoporous silicon carbide fibres by thermal treatment

AU - Shin, D. G.

AU - Cho, K. Y.

AU - Kim, Y.

AU - T. Kwon, W.

AU - Kim, S. R.

AU - Lee, Y. J.

AU - Riu, D. H.

PY - 2014/8

Y1 - 2014/8

N2 - Nanoporous silicon carbide fibres were prepared by curing and heat treatment of melt spun polycarbosilane (PCS) fibres. During the curing process, green PCS fibres were thermally oxidised at the temperature between 180 and 220°C and time between 2 and 10 h for crosslinking among the molecule chains in the PCS and controlling the oxygen concentration and distribution. After thermal oxidation, fibres were heat-treated between 1200 and 1600°C for the conversion to SiC phase. About 15-20 wt-% of oxygen was analysed after heat treatment at 1200°C and it can be possible to pyrolyse without melting or deformation of fibre. At a temperature above 1400°C, the uniform distribution of nanopores was observed on the fibre surface, and the size of pores was increased with curing and heating condition. This type of nanoporous SiC fibre is expected to be a good candidate for high temperature catalyst or catalytic supports.

AB - Nanoporous silicon carbide fibres were prepared by curing and heat treatment of melt spun polycarbosilane (PCS) fibres. During the curing process, green PCS fibres were thermally oxidised at the temperature between 180 and 220°C and time between 2 and 10 h for crosslinking among the molecule chains in the PCS and controlling the oxygen concentration and distribution. After thermal oxidation, fibres were heat-treated between 1200 and 1600°C for the conversion to SiC phase. About 15-20 wt-% of oxygen was analysed after heat treatment at 1200°C and it can be possible to pyrolyse without melting or deformation of fibre. At a temperature above 1400°C, the uniform distribution of nanopores was observed on the fibre surface, and the size of pores was increased with curing and heating condition. This type of nanoporous SiC fibre is expected to be a good candidate for high temperature catalyst or catalytic supports.

KW - Catalytic support

KW - Curing

KW - Energy efficiency

KW - Heat treatment

KW - Nanoporous

KW - SiC fibre

KW - Thermal oxidation

UR - https://www.scopus.com/pages/publications/84904760663

U2 - 10.1179/1743676114Y.0000000167

DO - 10.1179/1743676114Y.0000000167

M3 - Article

AN - SCOPUS:84904760663

SN - 1743-6753

VL - 113

SP - 341

EP - 345

JO - Advances in Applied Ceramics

JF - Advances in Applied Ceramics

IS - 6

ER -

Fabrication of nanoporous silicon carbide fibres by thermal treatment

Abstract

Keywords

UN SDGs

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