Abstract:The 2024 aluminum alloy additive bulk was fabricated by the stationary shoulder friction stir additive manufacturing. Heat treatment was conducted on the addictive bulk. The microstructure was observed by OM. The content and morphology of the second phase were analyzed by XRD and TEM respectively. The effect of heat treatment on microstructure and properties of the additive bulk was analyzed under the consideration of microhardness. The results show that the re-crystallized fine equiaxed grains appear in the additive bulk sample. The grain size gradually decreases from the bottom to the top. While the content of the precipitates and microhardness gradually increase from the bottom to the top. The maximum microhardness and average microhardness values are 99 HV and 86.5 HV respectively. After heart treatment, a large number of S′ phases with rod and ellipsoidal shape re-precipitated, and dispersely distribute in the α(Al) matrix, the relationship between precipitates and the matrix is coherent with each other. The process precipitation of the precipitates is α(Al)→S′(Al₂CuMg). More homogeneous and significantly increased microhardness are acquired, the average microhardness value is 135 HV, which should be attributed to the precipitation of a fine second phase, inducing in the precipitation strengthening.

Key words: heat treatment; stationary shoulder FSAM; aluminum alloy; microstructure characteristic; Precipitates