The oxidation resistance of two-temperature synthetic HfB2-SiC coating for the SiC coated C/C composites

Peipei Wang; Hejun Li; Ruimei Yuan; Hanhui Wang; Yulei Zhang; Zhigang Zhao

doi:10.1016/j.jallcom.2018.03.043

The oxidation resistance of two-temperature synthetic HfB₂-SiC coating for the SiC coated C/C composites

Peipei Wang, Hejun Li, Ruimei Yuan, Hanhui Wang, Yulei Zhang, Zhigang Zhao

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

44 Scopus citations

Abstract

To explore oxidation resistance of HfB₂-SiC coatings, the HfB₂-SiC coating was prepared at 2173 K (sample A) and 2373 K (sample B) by in-situ synthesis for SiC coated Carbon/carbon (C/C) composites. Compared with sample A, HfB₂ phases of sample B are more and the coating is thicker. At 1773 K in air, the C/C substrate of sample A can be protected for 319 h with 1.63% weight loss percentage, while the C/C substrate of sample B can be protected for 753 h with only 0.487% weight loss percentage, which indicates that 2373 K is easier to generate HfB₂ phases and beneficial to protect samples from oxidation. After 40-time thermal cycle, the weight loss percentages of sample A and B are 1.85% and 0.78%, respectively, which reveals that the latter has a better thermal shock resistance.

Original language	English
Pages (from-to)	438-446
Number of pages	9
Journal	Journal of Alloys and Compounds
Volume	747
DOIs	https://doi.org/10.1016/j.jallcom.2018.03.043
State	Published - 30 May 2018

Keywords

Carbon/carbon composites
HfB
Oxidation
SiC
Thermal shock

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10.1016/j.jallcom.2018.03.043

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title = "The oxidation resistance of two-temperature synthetic HfB2-SiC coating for the SiC coated C/C composites",

abstract = "To explore oxidation resistance of HfB2-SiC coatings, the HfB2-SiC coating was prepared at 2173 K (sample A) and 2373 K (sample B) by in-situ synthesis for SiC coated Carbon/carbon (C/C) composites. Compared with sample A, HfB2 phases of sample B are more and the coating is thicker. At 1773 K in air, the C/C substrate of sample A can be protected for 319 h with 1.63% weight loss percentage, while the C/C substrate of sample B can be protected for 753 h with only 0.487% weight loss percentage, which indicates that 2373 K is easier to generate HfB2 phases and beneficial to protect samples from oxidation. After 40-time thermal cycle, the weight loss percentages of sample A and B are 1.85% and 0.78%, respectively, which reveals that the latter has a better thermal shock resistance.",

keywords = "Carbon/carbon composites, HfB, Oxidation, SiC, Thermal shock",

author = "Peipei Wang and Hejun Li and Ruimei Yuan and Hanhui Wang and Yulei Zhang and Zhigang Zhao",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier B.V.",

year = "2018",

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doi = "10.1016/j.jallcom.2018.03.043",

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TY - JOUR

T1 - The oxidation resistance of two-temperature synthetic HfB2-SiC coating for the SiC coated C/C composites

AU - Wang, Peipei

AU - Li, Hejun

AU - Yuan, Ruimei

AU - Wang, Hanhui

AU - Zhang, Yulei

AU - Zhao, Zhigang

PY - 2018/5/30

Y1 - 2018/5/30

N2 - To explore oxidation resistance of HfB2-SiC coatings, the HfB2-SiC coating was prepared at 2173 K (sample A) and 2373 K (sample B) by in-situ synthesis for SiC coated Carbon/carbon (C/C) composites. Compared with sample A, HfB2 phases of sample B are more and the coating is thicker. At 1773 K in air, the C/C substrate of sample A can be protected for 319 h with 1.63% weight loss percentage, while the C/C substrate of sample B can be protected for 753 h with only 0.487% weight loss percentage, which indicates that 2373 K is easier to generate HfB2 phases and beneficial to protect samples from oxidation. After 40-time thermal cycle, the weight loss percentages of sample A and B are 1.85% and 0.78%, respectively, which reveals that the latter has a better thermal shock resistance.

AB - To explore oxidation resistance of HfB2-SiC coatings, the HfB2-SiC coating was prepared at 2173 K (sample A) and 2373 K (sample B) by in-situ synthesis for SiC coated Carbon/carbon (C/C) composites. Compared with sample A, HfB2 phases of sample B are more and the coating is thicker. At 1773 K in air, the C/C substrate of sample A can be protected for 319 h with 1.63% weight loss percentage, while the C/C substrate of sample B can be protected for 753 h with only 0.487% weight loss percentage, which indicates that 2373 K is easier to generate HfB2 phases and beneficial to protect samples from oxidation. After 40-time thermal cycle, the weight loss percentages of sample A and B are 1.85% and 0.78%, respectively, which reveals that the latter has a better thermal shock resistance.

KW - Carbon/carbon composites

KW - HfB

KW - Oxidation

KW - SiC

KW - Thermal shock

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U2 - 10.1016/j.jallcom.2018.03.043

DO - 10.1016/j.jallcom.2018.03.043

M3 - 文章

AN - SCOPUS:85043383937

SN - 0925-8388

VL - 747

SP - 438

EP - 446

JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

ER -

The oxidation resistance of two-temperature synthetic HfB₂-SiC coating for the SiC coated C/C composites

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