Litcius/Paper detail

The evolution and dissolution mechanism of θ-Al2Cu phase and the analysis of precipitation of a novel AlCu phase during elevated aging

Xiongbo Dong, Sha Yang, Na Li, Hao Zhong, Xueyi Wang, Hao Dong

2024Materials Characterization16 citationsDOIOpen Access PDF

Abstract

The evolution and dissolution mechanism of the θ-Al 2 Cu precipitates were investigated in this study by transmission electron microscopy (TEM) during the re-aging at high temperatures for a long time. The results advance the current knowledge of dissolution and its associated mechanisms of the θ-Al 2 Cu phase in Al Cu alloys. In this study, the coarsening and dissolution of θ-Al 2 Cu phase in T6 heat-treated Al 4Cu alloy during various times (0−1000 h ) of re-aging temperature 420 °C were studied experimentally and theoretically. The morphological characterization revealed that the θ-Al 2 Cu phases gradually increase in size and decrease in volume density during the aging process, which can be attributed to coarsening and dissolution phenomena occurring during re-aging. Additionally, a body-centered tetragonal AlCu phase is precipitated within the θ-Al 2 Cu phase during the high temperature re-aging process, which is a characteristic of this phase prior to dissolution. Moreover, the primary mechanisms responsible for the high temperature melting of the θ-Al 2 Cu phase are the formation of the AlCu phase and the initial melting of the Cu-poor region in the θ-Al 2 Cu phase. The Cu atoms in θ-Al 2 Cu phase dissolve and diffuse into the Al matrix , forming L1 2 ordered AlCu solute clusters through long-range diffusion.

Topics & Concepts

Materials scienceDissolutionPrecipitationPhase (matter)Mechanism (biology)MetallurgyChemical engineeringMeteorologyEpistemologyOrganic chemistryPhilosophyPhysicsChemistryEngineeringAluminum Alloys Composites PropertiesAluminum Alloy Microstructure PropertiesAdvanced ceramic materials synthesis