Effect of Deformation Temperature on Dynamic Recrystallization and CSL Grain Boundary Distribution of Fe-36%Ni Invar Alloy

Shuai He; Changsheng Li; Jianjun Zheng; Jinyi Ren; Yahui Han

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Effect of Deformation Temperature on Dynamic Recrystallization and CSL Grain Boundary Distribution of Fe-36%Ni Invar Alloy

机译：变形温度对Fe-36％Ni Invar合金的动态再结晶和CSL晶界分布的影响

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This paper investigated the effect of deformation temperatures on microstructure evolution and grain boundary character distribution (GBCD) of Fe-36%Ni Invar alloy during hot compression tests. The isothermal hot deformation tests were carried out in a temperature range of 850-1100?°C and a strain rate of 0.01?s_(?1). The grain boundary character distribution was based on the Σ3_( n )( n ?=?1, 2, 3,…) coincidence site lattice (CSL) boundaries. The experimental results show that the extent of dynamic recrystallization significantly expanded at the strain rate of 0.01?s_(?1)with the increase in temperature and this phenomenon was consistent with the evolution tendency of Σ3_( n )boundaries. To some degree, the increasing proportion of typical low-ΣCSL boundaries, especially the increasing trend of Σ3, positively promoted the wider process of dynamic recrystallization.

机译：本文研究了热压缩试验期间Fe-36％Ni Invor合金的微观结构演化和晶界性状分布（GBCD）的变形温度对Fe-36％Ni Invor合金的影响。等温热变形试验在850-1100Ω°C的温度范围内和0.01Ω_（α1）的应变率。晶粒边界字符分布基于Σ3_（n）（n？=Δ1,2,3，...）巧合点晶格（CSL）边界。实验结果表明，随着温度的增加，动态重结晶的程度明显地以0.01℃（α1）的应变速率显着扩增，并且这种现象与σ3_（n）边界的演化趋势一致。在某种程度上，典型的低ΣCSL边界的增加，特别是σ3的越来越长的趋势，正促进了动态再结晶的更广泛的过程。

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《Journal of Materials Engineering and Performance》 |2018年第6期|共7页
作者
Shuai He; Changsheng Li; Jianjun Zheng; Jinyi Ren; Yahui Han;
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作者单位

State Key Laboratory of Rolling and Automation Northeastern University;

State Key Laboratory of Rolling and Automation Northeastern University;

State Key Laboratory of Rolling and Automation Northeastern University;

State Key Laboratory of Rolling and Automation Northeastern University;

State Key Laboratory of Rolling and Automation Northeastern University;

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正文语种 eng
中图分类金属学与金属工艺;工程材料学;
关键词
EBSD; grain boundaries; hot deformation; invar alloy; microstructure;

机译：EBSD;晶界;热变形;Invar合金;微观结构;

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专利

1. Effect of Deformation Temperature on Dynamic Recrystallization and CSL Grain Boundary Distribution of Fe-36%Ni Invar Alloy [J] . Shuai He, Changsheng Li, Jianjun Zheng, Journal of Materials Engineering and Performance . 2018,第6期

机译：变形温度对Fe-36％Ni Invar合金的动态再结晶和CSL晶界分布的影响
2. Modeling of Grain-Boundary Mobility and Nucleation Rate During Discontinuous Dynamic Recrystallization in Ni-Nb Alloys and a High-Purity Alloy Derived from SAE 304L [J] . David Piot, Guillaume Smagghe, Frank Montheillet Materials science forum . 2017,第PTa2期

机译：Ni-Nb合金和SAE 304L衍生的高纯合金间断动态再结晶过程中晶界迁移率和成核速率的建模
3. Grain boundary character distribution during the post-deformation recrystallization of Incoloy 800H at elevated temperature [J] . Cao Yu, Di Hongshuang Materials Letters . 2016,第JANa15期

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4. DEFORMATION AND IGSCC BEHAVIOR OF CSL AND HIGH ANGLE BOUNDARIES IN CONTROLLED PURITY NI-16CR-9FE ALLOYS [C] . Bogdan Alexandreanu, Bulent H. Sencer, Gary S. Was TMS Annual Meeting . 2003

机译：控制纯度Ni-16Cr-9Fe合金中CSL和高角度边界的变形和IGSCC行为
5. The Temperature Dependence of Grain Boundary Complexion Transitions and Their Effect on the Grain Boundary Character and Energy Distributions. [D] . Kelly, Madeleine N. 2017

机译：晶界界面转变的温度依赖性及其对晶界特征和能量分布的影响。
6. Grain Boundary Evolution of Cold-Rolled FePd Alloy during Recrystallization at Disordering Temperature [O] . Hung-Pin Lin, Delphic Chen, Jui-Chao Kuo 2015

机译：冷轧FePd合金无序再结晶过程中的晶界演化
7. Serration of Grain Boundary in Ni-300Fe Alloy through High Temperature Deformation. [O] . Dong-Woo Suh, Tadanobu Inoue, Shiro Torizuka, 2002

机译：高温变形，Ni-300Fe合金晶界序列。
8. Structures of Grain Boundaries and Aspects of Deformation Behavior in Ni3Al Alloys. [R] . Kerans, R. J. 1988

机译：Ni3al合金晶界结构与变形行为。

Effect of Deformation Temperature on Dynamic Recrystallization and CSL Grain Boundary Distribution of Fe-36%Ni Invar Alloy

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