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Journal of Materials Engineering and Performance

Erschienen in:

16.05.2018

Experimental and Modeling Studies on the Microstructures and Properties of Oxidized Aluminum Nitride Ceramic Substrates

verfasst von: Ye Cao, Haixian Xu, Jun Zhan, Hao Zhang, Xin Wei, Jianmin Wang, Song Cui, Wenming Tang

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 7/2018

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Abstract

Oxidation of aluminum nitride (AlN) ceramic substrates doped with 2 wt.% Y₂O₃ was performed in air at temperatures ranging from 1000 to 1300 °C for various lengths of time. Microstructure, bending strength, and thermal conductivity of the oxidized AlN substrates were studied experimentally and also via mathematical models. The results show that the oxide layer formed on the AlN substrates is composed of α-Al₂O₃ nanocrystallines and interconnected micropores. Longitudinal and transverse cracks are induced in the oxide layer under tensile and shear stresses, respectively. Intergranular oxidation of the AlN grains close to the oxide layer/AlN interface also occurs, leading to widening and cracking of the AlN grain boundaries. These processes result in the monotonous degradation of bending strength and thermal conductivity of the oxidized AlN substrates. Two mathematic models concerning these properties of the oxidized AlN substrates versus the oxide layer thickness were put forward. They fit well with the experimental results.

Vorheriger Artikel Corrosion Behavior of Candidate Materials Used for Urea Hydrolysis Equipment in Coal-Fired Selective Catalytic Reduction Units

Nächster Artikel Phase Evolution and Mechanical Properties of AlCoCrFeNiSix High-Entropy Alloys Synthesized by Mechanical Alloying and Spark Plasma Sintering

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Titel: Experimental and Modeling Studies on the Microstructures and Properties of Oxidized Aluminum Nitride Ceramic Substrates
verfasst von: Ye Cao
Haixian Xu
Jun Zhan
Hao Zhang
Xin Wei
Jianmin Wang
Song Cui
Wenming Tang
Publikationsdatum: 16.05.2018
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 7/2018
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3415-6

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