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Design of a Thermally Stable Heat-Resistant (Al<sub>2</sub>O<sub>3</sub>+Al<sub>3</sub>Ti)/Al Composite with Excellent High-Temperature Mechanical Properties: Multimechanism Synergistic Strengthening Strategy

Yin Liu, Y.N. Zan, Dong Wang, Miao Song, X.H. Shao, Huali Hao, Qianqian Jin, Wenguang Wang, Bolv Xiao, Z.Y. Ma

2024Nano Letters13 citationsDOI

Abstract

The effectiveness of the room-temperature strengthening strategy for aluminum (Al) is compromised at increased temperatures due to grain and precipitate phase coarsening. Overcoming the heightened activity of grain boundaries and dislocations poses a significant challenge in enhancing the high-temperature strength through traditional precipitation strengthening. This study presents novel strengthening strategies that integrate intergranular reinforcements, intragranular reinforcements, refined grain, and stacking faults within an (Al 2 O 3 +Al 3 Ti)/Al composite prepared using sol–gel and powder metallurgy technology. Excellent high-temperature tensile properties are achieved; also, a remarkable fatigue performance at increased temperatures that surpasses those of other existing Al alloys and composites is revealed. These superior characteristics can be attributed to its exceptionally stable microstructure and the synergistic strengthening mechanisms mentioned above. This work offers new insights into designing and fabricating thermally stable Al matrix composites for high-temperature applications.

Topics & Concepts

Materials scienceGrain boundaryIntergranular corrosionPrecipitationStackingStrengthening mechanisms of materialsComposite numberAluminiumPhase (matter)MetallurgyGrain sizeComposite materialMicrostructureNuclear magnetic resonancePhysicsOrganic chemistryChemistryMeteorologyAluminum Alloys Composites PropertiesAdvanced ceramic materials synthesisIntermetallics and Advanced Alloy Properties
Design of a Thermally Stable Heat-Resistant (Al<sub>2</sub>O<sub>3</sub>+Al<sub>3</sub>Ti)/Al Composite with Excellent High-Temperature Mechanical Properties: Multimechanism Synergistic Strengthening Strategy | Litcius