Crystallization in Al88RE8Ni4 glass-forming alloys

Philosophical Magazine A Pub Date : 2002-08-01 DOI:10.1080/01418610208240048

T. Croat, A. Gangopadhyay, K. Kelton

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引用次数: 13

Abstract

Abstract The results from transmission electron microscopy (TEM) microstructural studies of devitrified amorphous alloys with a composition Al88RE8Ni4 are presented as a function of average rare-earth atomic radii (between 1.76 and 1.87 Å). Rare-earth elements RE ≡ Gd, Er and La were co-substituted to vary the average atomic radius rRE, while maintaining an 8 at.% rare-earth concentration. As reported previously for Al88La2Gd6Ni4 glasses, compositional phase separation prior to crystallization was observed in all alloys of this series. TEM examination of amorphous samples following low-temperature annealing treatments showed the development of strong image contrast prior to crystallization, corresponding to a segregation of the glassy matrix into aluminium-rich and solute-rich regions over a length scale of a few tens of nanometres. The subsequent crystallization behaviour depended on the average rare-earth radii, with metastable intermetallic phases forming first in glasses made with larger r RE and with fee α-Al nanocrystallization in smaller r RE glasses, showing preferential nucleation and growth of α-Al near the boundaries of the phase-separated regions.

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Al88RE8Ni4玻璃化合金的结晶

摘要:透射电镜(TEM)研究了Al88RE8Ni4非晶脱氮合金的显微组织，得到了稀土平均原子半径(1.76 ~ 1.87 Å)的函数。稀土元素RE≡Gd、Er和La被共取代以改变平均原子半径rRE，同时保持8 at。%稀土浓度。正如之前对Al88La2Gd6Ni4玻璃的报道，在该系列的所有合金中都观察到结晶前的成分相分离。低温退火处理后的非晶态样品的TEM检查显示，在结晶之前形成了强烈的图像对比度，对应于玻璃基体在几十纳米的长度范围内分离成富铝和富溶质区域。随后的晶化行为与稀土平均半径有关，在稀土含量较大的玻璃中首先形成亚稳金属间相，而在稀土含量较小的玻璃中则形成少量的α-Al纳米晶，在相分离区边界附近α-Al优先成核长大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Philosophical Magazine A

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