Microstructure and Microhardness Evolutions of High Fe Containing Near-Eutectic Al-Si Rapidly Solidified Alloy

Journal of Metallurgy Pub Date : 2014-05-25 DOI:10.1155/2014/587265

E. M. Ahmed, M. Ebrahim

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引用次数: 2

Abstract

Al-11 wt.% Si-11 wt.% Fe (11.29 at.% Si-5.6 at.% Fe) melt was rapidly solidified into ribbons and characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), and microhardness technique. The Rietveld X-ray diffraction analysis was applied successfully to analyze microstructure and phase precipitations. On the basis of the aluminum peak shifts measured in the XRD scans, a solid solubility extension value of 1 at.% Si in -Al was determined. SEM investigations confirmed presence of a spherical shape -phase particles in addition to needle and spherical shape -phase particles with contents of 1.1 wt.% and 10.1 wt.% as deduced by XRD analysis. During prolonged annealing process at 350°C/25 h, -phase disappeared, -phase content increased to 30 wt.%, and Si presence becomes more evident as deduced by XRD analysis. EDS analysis confirmed that these particles observed in the as-melt spun alloy are of lower Fe content comparing to those usually observed in the as-cast counter-part alloy. Besides, the length distribution of needle shape -particles has been shortened to be diverse from 1 to 5 μm. The as-melt spun ribbons exhibited enhancement of hardness to 277 HV and further increased during heat treatment (150°C/12 h) to 450 HV. This improvement of microstructure and hardness are the influence of microstructural refinement and modification obtained during the rapid solidification process.

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高铁近共晶Al-Si快速凝固合金组织与显微硬度演变

Al-11 wt.% Si-11 wt.% Fe (11.29 at。% Si-5.6 at。采用x射线衍射(XRD)、扫描电镜(SEM)、能谱分析(EDS)和显微硬度技术对熔体进行了表征。采用Rietveld x射线衍射分析成功地分析了显微组织和相析出。根据XRD扫描测得的铝的峰移，其固溶度延伸值为1 at。测定了-Al中Si的含量。扫描电镜研究证实，除了针状相颗粒和球形相颗粒外，还存在球形相颗粒，含量为1.1 wt。%和10.1 wt。%，由XRD分析得出。在350℃/25 h下延长退火过程，-相消失，-相含量增加至30 wt。%， XRD分析表明，Si的存在更加明显。EDS分析证实，在熔融态纺丝合金中观察到的这些颗粒的铁含量比在铸态合金中观察到的铁含量低。针状颗粒的长度分布也有所缩短，从1 ~ 5 μm不等。熔融态纺丝带的硬度提高到277 HV，在热处理(150℃/12 h)时硬度进一步提高到450 HV。这种显微组织和硬度的提高是在快速凝固过程中得到的显微组织细化和变质的影响。

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Journal of Metallurgy

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