Journal
CHINA FOUNDRY
Volume 19, Issue 2, Pages 149-157Publisher
SPRINGER SINGAPORE PTE LTD
DOI: 10.1007/s41230-022-9003-2
Keywords
Al-Si; Al-Si; ZnS; refinement; eutectic silicon; TG146; 21; A
Categories
Funding
- National Natural Science Foundation of China [51672145]
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Modification of Al-Si alloys with Al-12Si/ZnS powder can significantly refine the eutectic Si phase, leading to improved hardness, tensile strength, and elongation of the alloy.
To obtain high-performance Al-Si-based cast alloys, refinement and modification of Si phases are required. An Al-12Si/ZnS powder inoculant was designed and fabricated using a chemical bath deposition method. The efficiency of the inoculant for modifying the eutectic Si phase in as-cast Al-12Si alloy was studied. Results show that Al-12Si/ZnS powder can significantly refine the eutectic Si in Al-Si cast alloys. The best refinement effect for eutectic Si is achieved with 17.5wt.% Al-12Si/ZnS powder. Coarse long needle-shaped eutectic Si with a length of 18 mu m was modified into approximately spherical shape with a diameter of 6.53 mu m, which is evenly distributed throughout the alloy. The E2EM model calculation indicates that the inter-plane misfit (F-p) and inter-atomic spacing misfit (F-r) between ZnS and Si are all less than 0.5%, which confirms that ZnS is a potential nucleation site for Si phase. The hardness, tensile strength, and elongation of Al-12Si alloys modified with 17.5% Al-12Si/ZnS powder increase 6.30%, 16.18% and 55.45%, respectively, compared to the unmodified Al-12Si alloy. The fracture behavior of the alloy with 17.5wt.% Al-12Si/ZnS powder is dominated by transgranular fracture supplemented by intergranular fracture.
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