The extraordinary effect of very low content of hybrid carbonaceous reinforcement on the microstructural and mechanical properties of 7075 aluminum alloy

Until recently, the strengthening efficiency of carbonaceous reinforcements in aluminum-based matrix nanocomposites (AlMNCs) was lower than expected. The intrinsic characteristics of matrix and carbonaceous reinforcements and fabrication technique, which affected the microstructural characterization...

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Bibliographic Details
Published in:Archives of Civil and Mechanical Engineering 2021-03, Vol.21 (2), p.57, Article 57
Main Authors: Ezatpour, H. R., Parizi, M. Torabi, Ebrahimi, G. R.
Format: Article
Language:English
Subjects:
Alloys
Aluminum alloys
Aluminum base alloys
Aluminum carbide
Chemical reactions
Civil Engineering
Corrosion resistance
Ductility
Efficiency
Engineering
Fracture surfaces
Grain size
Graphene
Heat conductivity
Hot pressing
Interfaces
Interfacial bonding
Mechanical Engineering
Mechanical properties
Methods
Microhardness
Morphology
Nanocomposites
Original Article
Powder metallurgy
Precipitates
Rheocasting
Strengthening
Structural damage
Structural Materials
Tensile strength
Ultimate tensile strength
Yield strength
Yield stress
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Summary:Until recently, the strengthening efficiency of carbonaceous reinforcements in aluminum-based matrix nanocomposites (AlMNCs) was lower than expected. The intrinsic characteristics of matrix and carbonaceous reinforcements and fabrication technique, which affected the microstructural characterization, played main roles in determining the performance of Cs/AlMNCs. In this study a novel strategy was developed via flake powder metallurgy followed by slurry blending combined with rheocasting and hot-extrusion processing to prepare hybrid AA7075-matrix composite reinforced with CNTs + GNPs. No Al 4 C 3 phase was detected in Raman spectrums, while uniform dispersion of carbonaceous hybrid reinforcements with minimal structural damage was observed. There were ~ 9% and 39% decrease in the average grain size of the as-casted and extruded CNTs + GNPs/AA7075 composites, respectively, compared to AA7075 alloy. In the extruded CNTs + GNPs/AA7075 composite, plate precipitates were predominant and some lath-like dynamic precipitates were observed at the GNPs/AA7075 interfaces. The micro-hardness, tensile yield strength (TYS), ultimate tensile strength (UTS) and uniform elongation (UE) of the CNTs + GNPs/AA7075 composite were improved by ~ 17%, 51%, 7% and 20% compared to AA7075 alloy. An ultra-high yield strengthening efficiency of carbonaceous hybrid reinforcements in AA7075 alloy up to 3950 was obtained, where load bearing was the main strengthening mechanism and carbonaceous reinforcements illustrated bridging and pulling-out in the fracture surfaces of composite.
ISSN:2083-3318
1644-9665
2083-3318
DOI:10.1007/s43452-021-00210-w