Site occupation evolution of alloying elements in L1_2 phase during phase transformation in Ni_(75)Al_(7.5)V_(17.5)

Ni_(75)Al_(7.5)V_(17.5)相变过程中L1_2相合金元素占位几率演化的微观相场模拟(英文)

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摘要 Correlation between site occupation evolution of alloying elements in L12 phase and growth of DO22 phase in Ni75Al7.5V17.5 was studied using microscopic phase field model. The results demonstrate that the growing process of DO22 phase can be divided into two stages. At the early stage, composition in the centre part of L12 phase almost remains unchanged, and the nucleation and growth of DO22 phase is controlled by the decrease of interface between L12 phases. At the late stage, part of V for growth of DO22 phase is supplied from the centre part of L12 phase and mainly comes from Al sublattice, the excess Ni spared from the decreasing L12 phase migrates into the centre part of L12 phase and occupies the Ni sublattices exclusively, while the excess Al mainly occupies the Al sublattice. At the late stage, the growth of DO22 phase is controlled by the evolution of antisite atoms and ternary additions in the centre part of L12 phase. 基于微观相场模型,研究Ni75Al7.5V17.5合金在相变过程中L12相内合金元素演化与DO22相生长之间的关系。研究表明,在L12相向DO22相转变的过程中,DO22相的长大可以分为两阶段。在早期,L12相内合金元素的成分基本不变,DO22相的长大主要受L12相间有序畴界的减少所控制。在后期,DO22相长大所需的V一部分来自L12相内部,一部分来自L12相体积的减少,其中,相内部为DO22相长大所提供的V则主要来自Al格点位置,由于L12相体积减少而富余的Al向L12相内部扩散迁移并主要占据Al格点位置,富余的Ni则同时向L12相内部和DO22相内部扩散,主要占据L12相的Ni位置。DO22相长大的后期主要受L12相内反位缺陷和第三组元的演化所控制。

作者张明义刘富陈铮郭红军岳广全杨坤

机构地区西北工业大学凝固技术重点实验室中国商用飞机有限责任公司北京民用飞机技术研究中心

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第10期2439-2443,共5页 中国有色金属学报（英文版）

基金 Projects (50941020, 10902086, 50875217, 20903075) supported by the National Natural Science Foundation of China Projects (SJ08-ZT05, SJ08-B14) supported by the Natural Science Foundation of Shaanxi Province, China

关键词 nickel based superalloys Ni75Al7.5V17.5 alloy phase transformation micro-phase field grain growth antisite defect 镍基合金 Ni75Al7 5V17 5合金相变微观相场晶粒生长反位缺陷

分类号 TG146.1 [金属学及工艺—金属材料]

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参考文献3

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Transactions of Nonferrous Metals Society of China

2012年第10期

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Site occupation evolution of alloying elements in L1_2 phase during phase transformation in Ni_(75)Al_(7.5)V_(17.5)

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二级参考文献78

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