Thermal shock resistance of porous ZrB2–SiC ceramic after oxidation

Xinxin Jin; Le Chen; Limin Dong; Peng Zhou; Huanyan Xu; Liguo Jin; Lizhu Liu; Baoxia Ma; Baosheng Xu

doi:10.1080/17436753.2019.1678854

Thermal shock resistance of porous ZrB₂–SiC ceramic after oxidation

Xinxin Jin^*, Le Chen, Limin Dong, Peng Zhou, Huanyan Xu, Liguo Jin, Lizhu Liu, Baoxia Ma, Baosheng Xu

^*此作品的通讯作者

先进结构技术研究院

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

Thermal shock water quenching tests on porous ZrB₂–SiC (ZS) ceramics with 8.7, 17.9 and 27.3% porosity were conducted after these specimens were oxidised in static air at a constant temperature of 1200°C for 30 min. The effect of oxidation on their thermal shock resistance was investigated in detail. The oxidation improved the material’s thermal shock fracture resistance, but reduced their thermal shock damage resistance (TSDR). The thermal shock critical temperature difference (ΔT_c) of the oxidised porous ZS ceramics decreased as the porosity increased, which was the opposite trend to that observed in the case of unoxidised porous ZS ceramics. ZS ceramics with higher porosity had higher TSDR with or without oxidation treatment. Thickness of the oxidation layer, degree of oxide layer coverage and internal oxidation were observed to affect the thermal shock behaviour of the porous ZS ceramics.

源语言	英语
页（从-至）	15-21
页数	7
期刊	Advances in Applied Ceramics
卷	119
期	1
DOI	https://doi.org/10.1080/17436753.2019.1678854
出版状态	已出版 - 2 1月 2020

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10.1080/17436753.2019.1678854

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title = "Thermal shock resistance of porous ZrB2–SiC ceramic after oxidation",

abstract = "Thermal shock water quenching tests on porous ZrB2–SiC (ZS) ceramics with 8.7, 17.9 and 27.3% porosity were conducted after these specimens were oxidised in static air at a constant temperature of 1200°C for 30 min. The effect of oxidation on their thermal shock resistance was investigated in detail. The oxidation improved the material{\textquoteright}s thermal shock fracture resistance, but reduced their thermal shock damage resistance (TSDR). The thermal shock critical temperature difference (ΔTc) of the oxidised porous ZS ceramics decreased as the porosity increased, which was the opposite trend to that observed in the case of unoxidised porous ZS ceramics. ZS ceramics with higher porosity had higher TSDR with or without oxidation treatment. Thickness of the oxidation layer, degree of oxide layer coverage and internal oxidation were observed to affect the thermal shock behaviour of the porous ZS ceramics.",

keywords = "Mechanical properties, oxidation, porous materials, thermal shock/thermal shock resistance",

author = "Xinxin Jin and Le Chen and Limin Dong and Peng Zhou and Huanyan Xu and Liguo Jin and Lizhu Liu and Baoxia Ma and Baosheng Xu",

note = "Publisher Copyright: {\textcopyright} 2019, {\textcopyright} 2019 Institute of Materials, Minerals and Mining. Published by Taylor & Francis on behalf of the Institute.",

year = "2020",

month = jan,

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doi = "10.1080/17436753.2019.1678854",

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T1 - Thermal shock resistance of porous ZrB2–SiC ceramic after oxidation

AU - Jin, Xinxin

AU - Chen, Le

AU - Dong, Limin

AU - Zhou, Peng

AU - Xu, Huanyan

AU - Jin, Liguo

AU - Liu, Lizhu

AU - Ma, Baoxia

AU - Xu, Baosheng

PY - 2020/1/2

Y1 - 2020/1/2

N2 - Thermal shock water quenching tests on porous ZrB2–SiC (ZS) ceramics with 8.7, 17.9 and 27.3% porosity were conducted after these specimens were oxidised in static air at a constant temperature of 1200°C for 30 min. The effect of oxidation on their thermal shock resistance was investigated in detail. The oxidation improved the material’s thermal shock fracture resistance, but reduced their thermal shock damage resistance (TSDR). The thermal shock critical temperature difference (ΔTc) of the oxidised porous ZS ceramics decreased as the porosity increased, which was the opposite trend to that observed in the case of unoxidised porous ZS ceramics. ZS ceramics with higher porosity had higher TSDR with or without oxidation treatment. Thickness of the oxidation layer, degree of oxide layer coverage and internal oxidation were observed to affect the thermal shock behaviour of the porous ZS ceramics.

AB - Thermal shock water quenching tests on porous ZrB2–SiC (ZS) ceramics with 8.7, 17.9 and 27.3% porosity were conducted after these specimens were oxidised in static air at a constant temperature of 1200°C for 30 min. The effect of oxidation on their thermal shock resistance was investigated in detail. The oxidation improved the material’s thermal shock fracture resistance, but reduced their thermal shock damage resistance (TSDR). The thermal shock critical temperature difference (ΔTc) of the oxidised porous ZS ceramics decreased as the porosity increased, which was the opposite trend to that observed in the case of unoxidised porous ZS ceramics. ZS ceramics with higher porosity had higher TSDR with or without oxidation treatment. Thickness of the oxidation layer, degree of oxide layer coverage and internal oxidation were observed to affect the thermal shock behaviour of the porous ZS ceramics.

KW - Mechanical properties

KW - oxidation

KW - porous materials

KW - thermal shock/thermal shock resistance

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SN - 1743-6753

VL - 119

SP - 15

EP - 21

JO - Advances in Applied Ceramics

JF - Advances in Applied Ceramics

IS - 1

ER -

Thermal shock resistance of porous ZrB2–SiC ceramic after oxidation

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Thermal shock resistance of porous ZrB₂–SiC ceramic after oxidation