Influence of dislocation density and distribution on the aging behavior of 6061 AlSiCw composites
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2023, Materials Science and Engineering: AEnhancing mechanical properties of uniformly distributed nano TiB<inf>2</inf>/2024 Al composite rolling sheet by pre-stretch aging
2022, Journal of Alloys and CompoundsCitation Excerpt :On the one hand, the coarse precipitate zone (CPZ) regularly forms near the MRPs/Al interfaces, which is caused by thermoelastic stress induced dislocations. On the other hand, precipitate free zone (PFZ) formation occurs in the surrounding matrix [15–17]. However, when the size of reinforcement particles decreases to nanoscale, there are few studies on the structure evolution of nanosized reinforcement particles (NRPs)/Al interfaces during the aging treatments.
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2021, Encyclopedia of Materials: CompositesAtomic-scale investigation of the interface precipitation in a TiB<inf>2</inf> nanoparticles reinforced Al–Zn–Mg–Cu matrix composite
2020, Acta MaterialiaCitation Excerpt :It has been largely recognized that MRP/Al interface structure critically influences the precipitation reactions to promote the formations of coarse precipitate zone (CPZ) and precipitate free zone (PFZ) in the surrounding matrix [10–20], This, in turn, has a significant impact on overall mechanical properties of the Al-based metal matrix composites (MMCs) [21–23]. It has been well established that the CPZ is caused by thermoelastic stress induced dislocations (TSIDs) near the MRP/Al interface [10–13]. The interaction between solute atoms and TSIDs leads to a solute flux towards dislocations resulting in faster and coarser precipitation on them [11–13].