Influence of nano-scaled dispersed second phase on substructure of deformed dispersion strengthened copper alloy

机译：纳米级分散第二相对变形弥散强化铜合金亚结构的影响

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The deformation behavior of dispersion strengthened copper alloy Cu-Al_2O_3 was studied by TEM. The results show that nano-scaled dispersed second phase not only increases dislocation density in matrix, but also has an important influence on the dislocation substructure. The presence of fine dispersed Al_2O_3 particles results in a uniform and random dislocation distribution in matrix copper and causes the difficulty in formation of dislocation cell structure and the decrease in the amount of cell structure during deformation. Deformation gives rise to much more dislocations and dislocation cells form more difficultly and the decrease in the cell size with the increase of dispersion degree.

机译：用TEM研究了弥散强化铜合金Cu-Al_2O_3的变形行为。结果表明，纳米级分散的第二相不仅增加了基体中的位错密度，而且对位错亚结构有重要影响。细分散的Al_2O_3颗粒的存在导致基体铜中均匀且无规的位错分布，并导致在变形过程中难以形成位错晶胞结构和降低晶胞结构量。形变引起更多的位错，位错单元更难以形成，并且随着分散度的增加，单元尺寸减小。

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《Postdoctoral Symposium for Celebration of 20th Anniversary of the Foundation of Chinese Postdoctoral System; 2005;》|2005年|P.50-53|共4页
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作者
CHENG Jian-yi; WANG Ming-pu; CAO Jian-guo; ZHAO Xue-long; GUO Ming-xing;
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作者单位

School of Materials Science and Engineering, Jiujiang University, Jiujiang 332005, China;

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原文格式 PDF
正文语种 eng
中图分类工业通用技术与设备;
关键词
dispersed phase; particle; dispersion strengthened copper alloy; deformation; substructure;

机译：分散相;颗粒;弥散强化铜合金;变形;亚结构;
入库时间 2022-08-26 14:08:35

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专利

1. Cu-Al2O3弥散强化铜合金在不同条件下变形的显微组织与结构演变 [J] . 李灵, 李周, 雷前, 中国有色金属学报（英文版） . 2015,第012期
2. Cu-Al2O3弥散强化铜合金在不同条件下变形的显微组织与结构演变 [J] . 李灵, 李周, 雷前, 中国有色金属学报：英文版 . 2015,第012期
3. Influence of nano-scaled dispersed second phase on substructure of deformed dispersion strengthened copper alloy [J] . CHENG Jian-yi, WANG Ming-pu, CAO Jian-guo, 中南大学学报（英文版） . 2005,第0z1期

机译：纳米级分散第二相对变形分散增强铜合金亚结构的影响
4. Study on the properties and microstructure of dispersion strengthened copper alloy deformed at high temperatures [J] . K. Shen, M.P. Wang, S.M. Li Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2009,第1a2期

机译：高温下弥散强化铜合金的性能和显微组织研究
5. The influence of neutron irradiation on the fatigue performance of OFHC copper and a dispersion strengthened copper alloy [J] . B. N. Singh, J. F. Stubbins, P. Toft Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 1999,第2期

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6. Influence of Ag impurity doping on the microstructure and hardness of alumina dispersion strengthened copper alloys [C] . Yong Xiao, Shaojun Liu, Xuanhui Qu Chinese Materials Conference . 2013

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7. The properties of oxide-dispersed and spinodally strengthened copper alloys following high-temperature neutron environment exposure [D] . Anderson, Kevin Richard. 1990

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8. Effect of Helium on Dispersoid Evolution under Self-Ion Irradiation in A Dual-Phase 12Cr Oxide-Dispersion-Strengthened Alloy [O] . Hyosim Kim, Tianyao Wang, Jonathan G. Gigax, 2019

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9. The Strength of Dispersion Strengthened Copper Alloys Containing a Dispersed Phase of Thoria [O] . 1964

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10. Dispersion-Strengthening in Copper-Alumina and Copper-Yttria Alloys [R] . Crosby, R. L., Desy, D. H. 1969

机译：铜 - 氧化铝和铜 - 氧化钇合金的分散强化

Influence of nano-scaled dispersed second phase on substructure of deformed dispersion strengthened copper alloy

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