Surface functionalization of nanodiamonds and simultaneous enhancement to the strength and ductility of nanodiamond/2024Al composites

A surface functionalization combined powder metallurgy strategy was used to fabricate the uniformly distributed nanodiamond (ND) reinforced ND/2024Al composites. A variety of tests confirmed that surface functionalization could reduce the amorphous carbon and assemble more functional groups on NDs,...

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Published inMaterials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 844; p. 143200
Main Authors Xie, Kun, Jiang, Dandan, Cai, Bin, Zhang, Guopeng, Li, Mengjia, Lu, Fei, Shi, Yunjia, Huang, Hai, Zhongxia, Liu
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 02.06.2022
Elsevier BV
Subjects
Aluminum base alloys
Diamonds
Dispersion
Ductility
Elongation
Functional groups
Mechanical properties
Mechanical tests
Metal matrix composites
Nanostructure
ND dispersion
ND/2024Al composite
Powder metallurgy
Strengthening
Surface functionalization
Thermal mismatch
Surface functionalization
Mechanical properties
ND/2024Al composite
ND dispersion
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Summary:A surface functionalization combined powder metallurgy strategy was used to fabricate the uniformly distributed nanodiamond (ND) reinforced ND/2024Al composites. A variety of tests confirmed that surface functionalization could reduce the amorphous carbon and assemble more functional groups on NDs, which can help NDs de-agglomerate and disperse uniformly on the surface of aluminum powders. SEM and TEM observations showed that SF is beneficial for uniformly dispersing NDs in the aluminum matrix, encapsulating more NDs in the grains, and forming a better interfacial bond with aluminum. Mechanical tests showed the strength and elongation of the functionalized ND/2024Al composite were simultaneously enhanced. Theoretical estimation and experimental measurement show that the strength improvement from surface functionalization is mainly due to the enhancement of Orowan strengthening and thermal mismatch strengthening. This work offers new insight into the design and fabrication of ND-metal matrix composites (MMCs) with high strength and ductility. •Surface functionalization (SF) purifies NDs and introduce functional groups on their surface.•SF disperses NDs in α-Al matrix and increases its interfacial bonding with matrix.•SF disperses more NDs within the grains rather than grain boundaries of α-Al matrix.•SF simultaneously enhances strength and ductility of ND/2024Al composites.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2022.143200