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微观相场法研究镍基合金相变时的成分演化及界面定向迁移机制
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石油管工程技术研究院

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TG 146.4

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国家杰出青年科学基金;中国博士后科学基金;陕西省自然科学基础研究计划资助项目


Microscopic phase-field study for the evolution of chemical composition and mechanisms of directional interface migration dur
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Tubular Goods Research Institute of CNPC

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    摘要:

    基于耦合外应力场下的微观相场模型,研究了Ni75Al7.5V17.5三元合金相变过程中相分解、生长过程中合金成分演化及应力作用下相间界面的定向迁移规律。研究表明:早期DO22相长大所需的V来自于在L12相间有序畴界处,而后期则来自于其内部,且早期DO22相长大的速度高于后期的长大速度;时效过程有5种异相间界面形成,而A类界面的迁移为相迁移的主要类型;相变初期A、B类界面较少,合金形貌变化不大,随着相变的进行A类界面数量增加,相的生长及分解过程加剧,导致后期A类界面减少、B类界面增多,合金体系达到平衡状态;在压应力作用下,A类界面沿应力方向迁移,促使DO22相在此方向上的生长,导致合金“筏状”组织的形成。

    Abstract:

    Evolution of chemical composition during phase decomposition and growth and the mechanisms of the directional interface migration during exterior load for Ni75Al7.5V17.5 alloy was investigated in this study, which is based on microscopic phase-field method. The results show that V which is needed for the growth of DO22 in the early stage came form the ordering domain among L12, V came from the interior of L12 in the later stage, and the speed for DO22 in the early stage was faster than it in the later stage. They formed five types of interfaces, and A-type was the main type for interface migration. It had a few A and B type interface in the early stage, and morphology changed little. With the rise of the number for A-type interface, the growth and decomposition for phases were accelerated, the number of A-type interface reduced and the number of B-type interface increased, and alloy reached balance fainlly. A-type interface migrated along stress during compress strees so that DO22 grew along this direction, and rafting structure of alloy formed.

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杨坤.微观相场法研究镍基合金相变时的成分演化及界面定向迁移机制[J].稀有金属材料与工程,2016,45(12):3238~3244.[yangkun. Microscopic phase-field study for the evolution of chemical composition and mechanisms of directional interface migration dur[J]. Rare Metal Materials and Engineering,2016,45(12):3238~3244.]
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历史
  • 收稿日期:2014-09-24
  • 最后修改日期:2014-10-11
  • 录用日期:2014-12-03
  • 在线发布日期: 2017-02-06
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