Core structure and strengthening mechanism of the misfit dislocation in nickel-based superalloys during high-temperature and low-stress creep

Ma Shiyu; Lv Xianzi; Zhang Jianxin; Zhang Youjian; Li Pan; Jin Huixin; Zhang Wenyang; Li Xueqiao; Mao Shengcheng

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Core structure and strengthening mechanism of the misfit dislocation in nickel-based superalloys during high-temperature and low-stress creep

机译：高温和低应力蠕变期间镍基超合金中错位位错的核心结构和加强机制

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Misfit dislocation structures are investigated in a nickel-based single crystal superalloy subjected to 38.8 h creep at 1100 degrees C and 130 MPa using conventional and high resolution transmission electron microscopy (HRTEM). The misfit dislocation was identified as an uncommon one with Burgers vector b = a/2[(2) over bar 11], which can be described as inserting (or extracting) one (1 (1) over bar1) half plane and one (11 (1) over bar) half plane. This dislocation was decomposed into two partial dislocations b(1) and b(2), with b(1) = a/2[(1) over bar 01] and b(2) = a/2[(2) over bar 11]. Partial dislocations b(1) and b(2) were arranged in a "V" shape, connected by the antiphase boundary (APB), which could hinder the dislocation motion to achieve the effect of dislocation enhancement. (c) 2018 Elsevier B.V. All rights reserved.

机译：使用常规和高分辨率透射电子显微镜（HRTEM）在1100℃和130MPa的基于镍基单晶高级合金中研究了错配脱位结构。被识别出错入脱位作为汉堡载体B = A / 2 [（2）上方的罕见脱位，其可以被描述为插入（或提取）一个（1（1）上）半平面和一个（ 11（1）在酒吧）半平面。该位错被分解成两个部分脱位B（1）和B（2），B（1）= A / 2 [（1）上方的棒01]和B（2）= A / 2 [（2）上方 11]。部分脱位B（1）和B（2）以“V”形状排列，通过反相边界（APB）连接，这可能阻碍位错动作以实现脱位增强的效果。（c）2018年elestvier b.v.保留所有权利。

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2018年第2018期|共5页
作者
Ma Shiyu; Lv Xianzi; Zhang Jianxin; Zhang Youjian; Li Pan; Jin Huixin; Zhang Wenyang; Li Xueqiao; Mao Shengcheng;
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作者单位

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Shandong Univ Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ Jinan 250061 Shandong Peoples R China;

Beijing Univ Technol Beijing Key Lab Microstruct &

Property Adv Mat Beijing 100024 Peoples R China;

Beijing Univ Technol Beijing Key Lab Microstruct &

Property Adv Mat Beijing 100024 Peoples R China;

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正文语种 eng
中图分类合金学与各种性质合金;金属材料;
关键词
Nickel based superalloys; High-temperature and low-stress creep; Misfit dislocation; Core structure; Stress distribution; Strengthening mechanism;

机译：基于镍的高温合金;高温和低应力蠕变;错配脱位;核心结构;应力分布;强化机制;

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1. Core structure and strengthening mechanism of the misfit dislocation in nickel-based superalloys during high-temperature and low-stress creep [J] . Ma Shiyu, Lv Xianzi, Zhang Jianxin, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：高温和低应力蠕变期间镍基超合金中错位位错的核心结构和加强机制
2. Dislocation motion in the early stages of high-temperature low-stress creep in a single-crystal superalloy with a small lattice misfit [J] . Zhang J.X., Harada H., Koizumi Y., Journal of Materials Science . 2010,第2期

机译：晶格失配小的单晶高温合金中高温低应力蠕变早期的位错运动
3. Dislocation motion in the early stages of high-temperature low-stress creep in a single-crystal superalloy with a small lattice misfit [J] . Zhang J.X., Harada H., Koizumi Y., Journal of Materials Science . 2010,第2期

机译：晶格失配小的单晶高温合金中高温低应力蠕变早期的位错运动
4. Dislocation Configurations in Single-Crystal Superalloys during High-Temperature Low-Stress Creep [C] . Jianxin ZHANG, Hiroshi HARADA International conference on advanced materials . 2011

机译：高温低应力蠕变期间单晶高温合金中的位错配置
5. The role of microstructure on deformation and damage mechanisms in a Nickel-based superalloy at elevated temperatures. [D] . Maciejewski, Kimberly E. 2013

机译：高温下镍基高温合金中微观结构对变形和破坏机制的作用。
6. The Effect of Withdrawal Rate on Crystal Structure Perfection Microstructure and Creep Resistance of Single Crystal Castings Made of CMSX-4 Nickel-Based Superalloy [O] . Kamil Gancarczyk, Maciej Zubko, Aneta Hanc-Kuczkowska, 2019

机译：撤离速率对CMSX-4镍基高温合金单晶铸件的晶体结构完善显微组织和抗蠕变性的影响
7. Evolution of interfacial dislocation network during anisothermal high-temperature creep of a nickel-based superalloy [O] . Hantcherli Muriel, Pettinari-Sturmel Florence, Viguier Bernard, 2011

机译：镍基高温合金等温高温蠕变过程中界面位错网络的演变
8. Dislocation Decorrelation and Relationship to Deformation Microtwins during Creep of a Gamma' Precipitate Strengthened Ni-based Superalloy [R] . Unocic, R. R., Zhou, N., Kovarik, L., 2011

机译：在Gamma'沉淀物的蠕变过程中的微扭伤加强了镍基高温合金

Core structure and strengthening mechanism of the misfit dislocation in nickel-based superalloys during high-temperature and low-stress creep

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