The Effect of Si Addition on Crystallization Behavior of Amorphous Al-Y-Ni Alloy
This article reports the effect of silicon (Si) addition upon the crystallization behavior and mechanical properties of an amorphous AlYNi alloy. An amount of 1 at.% Si was added to a base alloy of Al^sub 85^Y^sub 5^Ni^sub 10^ either by substitution for yttrium (Y) to form Al^sub 85^Y^sub 4^Ni^sub 1...
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Veröffentlicht in: | Journal of materials engineering and performance 2004-08, Vol.13 (4), p.504-508 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | This article reports the effect of silicon (Si) addition upon the crystallization behavior and mechanical properties of an amorphous AlYNi alloy. An amount of 1 at.% Si was added to a base alloy of Al^sub 85^Y^sub 5^Ni^sub 10^ either by substitution for yttrium (Y) to form Al^sub 85^Y^sub 4^Ni^sub 10^Si^sub 1^, or by substitution for nickel (Ni) to form Al^sub 85^Y^sub 5^Ni^sub 9^Si^sub 1^. Differential scanning calorimetry (DSC) of all three alloys showed three exothermic peaks. Comparing the peak temperature for the first exothermic peak, a significant shift occurs toward the lower temperature. This indicates that 1 at.% substitutions of Y or Ni by Si decreases the stability of the amorphous phase. DSC study of these amorphous alloys during isothermal annealing at temperatures about 5-15 K lower than their first crystallization peaks showed that the formation of α-Al nanocrystals via primary crystallization occurred without an incubation period. The Avrami time exponent (n) of the primary crystallization from the amorphous structure was determined to be 1.00-1.16 using the Johnson-Mehl-Avrami (JMA) analysis. This suggested a diffusion-controlled growth without nucleation. However, a DSC study of these amorphous alloys during isothermal annealing at higher temperatures between 585 and 605 K showed a clear incubation period during the formation of the Al^sub 3^Ni and Al^sub 3^Y intermetallic phases. An n value of 3.00-3.45 was determined using JMA analysis. This suggested that the transformation reaction involved a decreasing nucleation rate and interface-controlled growth behavior. The tensile strength σ^sub f^ and Vickers hardness for these amorphous alloys are in the range 1050-1250 MPa and 380-398 diamond pyramid hardness number (1 diamond pyramid hardness number=1 kg/mm^sup 2^=9.8 MPa), respectively.[PUBLICATION ABSTRACT] |
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ISSN: | 1059-9495 1544-1024 |
DOI: | 10.1361/10599490419171 |