Tensile properties of domestic Al2O3f/Al2O3 composite at room temperature and 1000 ℃

Ke ZHANG; Ping XU; Chao ZHANG; Chenchen LI; Wenqing YING; Ning XING; Mei LI; Chengyu ZHANG

doi:10.11868/j.issn.1001-4381.2024.000420

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Journal of Materials Engineering ›› 2025, Vol. 53 ›› Issue (1) : 195-201. DOI: 10.11868/j.issn.1001-4381.2024.000420

RESEARCH ARTICLE

Tensile properties of domestic Al₂O_3f/Al₂O₃ composite at room temperature and 1000 ℃

Ke ZHANG ¹ ,
Ping XU ² ,
Chao ZHANG ³ ,
Chenchen LI ² ,
Wenqing YING ¹ ,
Ning XING ¹ ,
Mei LI ¹ ,
Chengyu ZHANG ¹

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Abstract

Continuous alumina fiber reinforced alumina composite （Al₂O_3f/Al₂O₃） is an ideal material for developing high-performance aero-engine hot section components. In this study， the room-temperature and 1000 ℃ tensile mechanical properties of domestic Al₂O_3f/Al₂O₃ are investigated. The microscopic morphology and fracture morphology of tensile specimens are observed by SEM. The microstructure is observed by TEM. The tensile strength is analyzed using the Weibull distribution， and the fiber/matrix interfacial shear strength is obtained by the fiber push-in method. The results show that the room-temperature tensile strength of domestic Al₂O_3f/Al₂O₃ is （257±31） MPa while the tensile strength at 1000 ℃ is 78% of room temperature strength， reaching the level of foreign Nextel610/Al₂O₃. The interfacial bonding is the main factor affecting the tensile strength. High tensile strength with low interfacial bonding strength， results in long and dispersed fiber pull-out. Low tensile strength with high interfacial bonding strength， results in fiber bundle breakage and shorter fiber pull-out.

Key words

alumina fiber / Al₂O_3f/Al₂O₃ composite / tensile property / strength dispersion / interfacial bonding strength

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Ke ZHANG , Ping XU , Chao ZHANG , et al . Tensile properties of domestic Al₂O_3f/Al₂O₃ composite at room temperature and 1000 ℃. Journal of Materials Engineering. 2025, 53(1): 195-201 https://doi.org/10.11868/j.issn.1001-4381.2024.000420

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Received	Revised	Published
12 Jun 2024	05 Sep 2024	20 Jan 2025
Issue Date
01 Sep 2025

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