Oxidation resistant zirconium diboride–silicon carbide coatings for silicon carbide coated graphite materials

•ZrB2–SiC/SiC coated graphite specimens were prepared by pack cementation.•Weight loss of ZS50 sample was 2.9% after oxidation and 6.5% after 15 thermal shocks.•Residual silicon is beneficial to oxidation resistance and thermal shock resistance. Four ZrB2–SiC/SiC dual-layer coatings were prepared on...

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Published inJournal of alloys and compounds Vol. 629; pp. 124 - 130
Main Authors Peng, Wang, Wenbo, Han, Xinxin, Jin, Xinghong, Zhang, Jiaxing, Gao, Shanbao, Zhou
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.04.2015
Subjects
Coatings
Density
Graphite
Oxidation
Oxidation protective coating
Oxidation resistance
Shock resistance
Silicon
Silicon carbide
Thermal shock
Thermal shock resistance
ZrB2–SiC
Oxidation resistance
Oxidation protective coating
ZrB2–SiC
Thermal shock resistance
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Abstract •ZrB2–SiC/SiC coated graphite specimens were prepared by pack cementation.•Weight loss of ZS50 sample was 2.9% after oxidation and 6.5% after 15 thermal shocks.•Residual silicon is beneficial to oxidation resistance and thermal shock resistance. Four ZrB2–SiC/SiC dual-layer coatings were prepared on the surface of graphite matrix by pack cementation to improve the oxidation and thermal shock resistance of graphite. The crystalline structure and morphology as well as the resistance to oxidation and thermal shock of these coatings were investigated. The results indicated that the weight loss of the ZS50 coating sample, whose pack powders contained 52.4wt.% ZrB2, 39.2wt.% Si and 8.4wt.% graphite, was only 2.9% after oxidation in air at 1500°C for 19h and 6.5% after thermal shocks between 1500°C and room temperature for 15 cycles. With the increasing silicon in pack powders, some residual silicon appeared in ZS50 coating, which was considered to be beneficial to oxidation resistance and thermal shock resistance because it can improve the density of coating and the SiO2 formed by oxidation of residual Si can heal the microcracks at high temperature.
AbstractList •ZrB2–SiC/SiC coated graphite specimens were prepared by pack cementation.•Weight loss of ZS50 sample was 2.9% after oxidation and 6.5% after 15 thermal shocks.•Residual silicon is beneficial to oxidation resistance and thermal shock resistance. Four ZrB2–SiC/SiC dual-layer coatings were prepared on the surface of graphite matrix by pack cementation to improve the oxidation and thermal shock resistance of graphite. The crystalline structure and morphology as well as the resistance to oxidation and thermal shock of these coatings were investigated. The results indicated that the weight loss of the ZS50 coating sample, whose pack powders contained 52.4wt.% ZrB2, 39.2wt.% Si and 8.4wt.% graphite, was only 2.9% after oxidation in air at 1500°C for 19h and 6.5% after thermal shocks between 1500°C and room temperature for 15 cycles. With the increasing silicon in pack powders, some residual silicon appeared in ZS50 coating, which was considered to be beneficial to oxidation resistance and thermal shock resistance because it can improve the density of coating and the SiO2 formed by oxidation of residual Si can heal the microcracks at high temperature.
Four ZrB sub(2)-SiC/SiC dual-layer coatings were prepared on the surface of graphite matrix by pack cementation to improve the oxidation and thermal shock resistance of graphite. The crystalline structure and morphology as well as the resistance to oxidation and thermal shock of these coatings were investigated. The results indicated that the weight loss of the ZS50 coating sample, whose pack powders contained 52.4 wt.% ZrB sub(2), 39.2 wt.% Si and 8.4 wt.% graphite, was only 2.9% after oxidation in air at 1500 [degrees]C for 19 h and 6.5% after thermal shocks between 1500 [degrees]C and room temperature for 15 cycles. With the increasing silicon in pack powders, some residual silicon appeared in ZS50 coating, which was considered to be beneficial to oxidation resistance and thermal shock resistance because it can improve the density of coating and the SiO sub(2) formed by oxidation of residual Si can heal the microcracks at high temperature.
Author Xinghong, Zhang
Shanbao, Zhou
Peng, Wang
Wenbo, Han
Jiaxing, Gao
Xinxin, Jin
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Keywords Oxidation resistance
Oxidation protective coating
ZrB2–SiC
Thermal shock resistance
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Snippet •ZrB2–SiC/SiC coated graphite specimens were prepared by pack cementation.•Weight loss of ZS50 sample was 2.9% after oxidation and 6.5% after 15 thermal...
Four ZrB sub(2)-SiC/SiC dual-layer coatings were prepared on the surface of graphite matrix by pack cementation to improve the oxidation and thermal shock...
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SubjectTerms Coatings
Density
Graphite
Oxidation
Oxidation protective coating
Oxidation resistance
Shock resistance
Silicon
Silicon carbide
Thermal shock
Thermal shock resistance
ZrB2–SiC
Title Oxidation resistant zirconium diboride–silicon carbide coatings for silicon carbide coated graphite materials
URI https://dx.doi.org/10.1016/j.jallcom.2014.12.117
https://search.proquest.com/docview/1685806804
Volume 629
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