Structure and fracture mechanism of a two-phase chromium-nickel alloy during high-temperature deformation

Mironenko V. N.; Aronin A. S.; Vasenev V. V.; Aristova I. M.; Shmytko I. M.; Trushnikova A. S.

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Structure and fracture mechanism of a two-phase chromium-nickel alloy during high-temperature deformation

机译：高温变形过程中两相铬 - 镍合金的结构和断裂机理

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The structure and mechanical properties of a two-phase Kh65N33V2FT alloy has been studied after tests at room and high temperatures. The morphology of the main phases, namely, solid solutions of nickel in chromium (alpha) and chromium in nickel (gamma), is changed depending on temperature. The lattice parameters of the main phases have been determined. The main mechanism of deformation for this alloy is shown to be grain-boundary sliding. Bulk and grain-boundary diffusion creep and self-regulating diffusion-viscous flow is possible in the gamma phase during high-temperature deformation. The heat resistance of this alloy is restricted to 1000A degrees C because of the formation of a gamma-phase percolation cluster.

机译：在室温和高温测试之后研究了两相KH65N33V2FT合金的结构和机械性能。根据温度改变铬（α）中铬（α）中镍和铬的固体溶液的形态，取决于温度。已经确定了主要阶段的晶格参数。该合金变形的主要机理被认为是晶界滑动。在高温变形期间，在γ相位中可以在伽马相中散装和晶粒边界扩散蠕变和自调节扩散粘性流动。由于形成γ相渗透簇，该合金的耐热性限制为1000A℃。

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来源
《The Physics of Metals and Metallography》 |2016年第9期|共8页
作者
Mironenko V. N.; Aronin A. S.; Vasenev V. V.; Aristova I. M.; Shmytko I. M.; Trushnikova A. S.;
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作者单位

OAO Kompozit Ul Pionerskaya 4 Korolev 4141070 Moscow Oblast Russia;

Russian Acad Sci Inst Solid State Phys Ul Acad Osipyana 2 Chernogolovka 142432 Moscow Oblast Russia;

OAO Kompozit Ul Pionerskaya 4 Korolev 4141070 Moscow Oblast Russia;

Russian Acad Sci Inst Solid State Phys Ul Acad Osipyana 2 Chernogolovka 142432 Moscow Oblast Russia;

Russian Acad Sci Inst Solid State Phys Ul Acad Osipyana 2 Chernogolovka 142432 Moscow Oblast Russia;

OAO Kompozit Ul Pionerskaya 4 Korolev 4141070 Moscow Oblast Russia;

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正文语种 eng
中图分类金属学与热处理;
关键词
chromium-nickel alloy; structure; deformation; recrystallization; percolation; fracture;

机译：铬镍合金;结构;变形;重结晶;渗滤;骨折;

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1. Structure and fracture mechanism of a two-phase chromium-nickel alloy during high-temperature deformation [J] . Mironenko V. N., Aronin A. S., Vasenev V. V., The Physics of Metals and Metallography . 2016,第9期

机译：两相铬镍合金高温变形的组织和断裂机理
2. High-temperature superplastic behavior and ECAP deformation mechanism of two-phase Mg-Li alloy [J] . Chen Dexin, Kong Jing, Gui Zhenzhen, Materials Letters . 2021,第Octa15期

机译：两相Mg-Li合金的高温超塑性和ECAP变形机理
3. High-temperature deformation and fracture mechanisms of an advanced heat resistant Fe-Cr-Ni alloy [J] . Yu Zhang, Hongyang Jing, Lianyong Xu, Materials Science and Engineering . 2017,第FEBa16期

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4. A STUDY OF THE FRACTURE BEHAVIOR, DEFORMATION MECHANISMS, MICROSTRUCTURES, AND DUCTILITY OF PRECIPITATION STRENGTHENED ALUMINUM-LITHIUM ALLOYS [C] . James M. Fragomeni International Conference on Fracture . 2005

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8. Creep mechanisms and interface-enhanced deformation twinning in a two-phase lamellar TiAl alloy [R] . Hsiung, L. M. 1997

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Structure and fracture mechanism of a two-phase chromium-nickel alloy during high-temperature deformation

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