Effect of Ta Addition on Glass-Forming Ability and Structures of Fe₄₀Co₄₀Zr₇V₂B₁₁ Alloy

IF 0.5 4区物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Acta Physica Polonica A Pub Date : 2023-10-01 DOI:10.12693/aphyspola.144.209

Y.M. Sun, P.L. Zhang

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Abstract

Fe40Co40Zr7V2B11-xTax (x=0, 1, 2) alloy ribbons are prepared through single-roller melt spinning followed by annealing in a temperature range of 300–700°C. The influence of substituting Ta for V on the free and wheel surface structures of the samples is investigated. The addition of Ta improves the glass-formation ability owing to the large atomic radius of Ta atoms. The as-quenched Fe40Co40Zr7V2B11 alloy is not amorphous, and α-Fe crystals are textured (200) on the free surface. Moreover, the as-quenched Fe40Co40Zr7V2B10Ta1 alloy is not completely amorphous, and a small amount of α-Fe crystals remains textured (200) on the free surface. The crystallization of the free surfaces of the Fe40Co40Zr7V2B11 and Fe40Co40Zr7V2B10Ta1 alloys differs from those of the wheel-contacted surfaces. Both the free and wheel-contacted surfaces of the as-quenched Fe40Co40Zr7V2B9Ta2 alloy exhibit fully amorphous structures. The crystallization of the free surface of the Fe40Co40Zr7V2B9Ta2 alloy is similar to that of the wheel-contacted surface. The ductility of the Fe40Co40Zr7V2B9Ta2 alloy is greater than that of the Fe40Co40Zr7V2B11 and Fe40Co40Zr7V2B10Ta1 alloys. The addition of Ta significantly improves the glass-forming ability and ductility of the alloy.

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Ta对Fe40Co40Zr7V2B11合金非晶形成能力及组织的影响

采用单辊熔融纺丝法制备Fe40Co40Zr7V2B11-xTax (x= 0,1,2)合金带，然后在300-700℃的温度范围内退火。研究了以Ta代替V对试样自由表面和车轮表面结构的影响。由于Ta原子的大原子半径，Ta的加入提高了玻璃的形成能力。淬火态Fe40Co40Zr7V2B11合金非非晶态，自由表面有α-Fe晶织构(200)。此外，淬火态Fe40Co40Zr7V2B10Ta1合金并非完全非晶态，自由表面仍有少量α-Fe晶织构(200)。Fe40Co40Zr7V2B11和Fe40Co40Zr7V2B10Ta1合金自由表面的结晶与车轮接触表面的结晶不同。淬火态Fe40Co40Zr7V2B9Ta2合金的自由表面和轮接触表面均表现出完全的非晶组织。Fe40Co40Zr7V2B9Ta2合金自由表面的结晶与车轮接触表面相似。Fe40Co40Zr7V2B9Ta2合金的延展性大于Fe40Co40Zr7V2B11和Fe40Co40Zr7V2B10Ta1合金。Ta的加入显著提高了合金的非晶形成能力和塑性。

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来源期刊

Acta Physica Polonica A 物理-物理：综合

CiteScore

1.50

自引率

0.00%

发文量

141

审稿时长

6 months

期刊介绍： Contributions which report original research results and reviews in the fields of General Physics, Atomic and Molecular Physics, Optics and Quantum Optics, Quantum Information, Biophysics, Condensed Matter, and Applied Physics are welcomed.