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Origins of high fracture toughness and glass‐like thermal conductivity in Zr–Ta–O composites

Lin Chen, Baihui Li, Keren Luo, Hao Xu, Mingyu Hu, Hongxia Li, Gang Wang, Shixian Zhao, Jing Feng

2022Journal of the American Ceramic Society16 citationsDOI

Abstract

Abstract Screening multifunctional thermal/environmental barrier coatings (T/EBCs) for ceramic matrix composites (CMCs) and alloys contribute to developing highly efficient hypersonic vehicles and aeroengines. This work elucidates that Zr–Ta–O composites are T/EBCs for Al 2 O 3 fiber‐reinforced Al 2 O 3 (Al 2 O 3f /Al 2 O 3 ) CMCs and alloys. Zr–Ta–O composites have superiorities of glass‐like thermal conductivity (1.4 W m –1 K –1 ), thermal expansion coefficients (8.6–12.3 × 10 –6 K –1 ) matching to Al 2 O 3f /Al 2 O 3 and alloys, and high toughness (3.4 MPa m 1/2 ). The origins of high toughness are elucidated from crack‐propagation models and formation of micro‐cracks, which consume lots of crack fracture energy and relieve the stress concentration of indentation tips. The long‐range‐ordered and short‐range‐disordered arrangements of cations and the highly twisting lattices of Ta 2 Zr 6 O 17 significantly contribute to their glass‐like thermal conductivity. This work motivates upcoming study and application of Zr–Ta–O composites as T/EBCs with working temperature reaching 1500°C.

Topics & Concepts

Materials scienceFracture toughnessComposite materialThermal conductivityCeramicThermal expansionToughnessAtmospheric temperature rangeIndentationCeramic matrix compositePhysicsMeteorologyAdvanced ceramic materials synthesisNuclear Materials and PropertiesHigh-Temperature Coating Behaviors
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