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作者:

Ban, Yijie (Ban, Yijie.) | Zhang, Yi (Zhang, Yi.) | Jia, Yanlin (Jia, Yanlin.) | Tian, Baohong (Tian, Baohong.) | Volinsky, Alex A. (Volinsky, Alex A..) | Zhang, Xiaohui (Zhang, Xiaohui.) | Zhang, Qifei (Zhang, Qifei.) | Geng, Yongfeng (Geng, Yongfeng.) | Liu, Yong (Liu, Yong.) | Li, Xu (Li, Xu.)

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EI

摘要:

The Cu-Ni-Si alloy has widely applications in the lead frames and electronics industries due to its high strength and conductivity. In this work, hot deformation behavior of the Cu-1.5Ni-1.1Co-0.6Si and Cu-1.5Ni-1.1Co-0.6Si-0.1Cr alloys were investigated through the isothermal compression tests using the Gleeble-1500D thermo-mechanical simulator operating at the temperature ranging from 500 °C to 900 °C and 0.001–10 s−1 strain rate. The deformed microstructure was characterized by the electron backscatter diffraction (EBSD) and the transmission electron microscopy. The constitutive equations of the alloys were established. According to the microstructure analysis, it can be observed that the grain size of the alloy with Cr was more uniform. In addition, the misorientation angle of 14.19 during recrystallization was significantly lower than 24 after the recrystallization, which means that the migration rate of grain boundaries is slow. The texture of the Cu-Ni-Co-Si alloy at 800 °C is the Goss {011}〈100〉 texture and {001}〈100〉 cubic texture, while the Goss texture at 900 °C is replaced by the {011} 〈112〉brass texture. The effects of Cr on precipitation phases were analyzed, and the precipitated phases were (Ni, Co)2Si, Co2Si. The addition of Cr promoted precipitation and significantly reduced the precipitate size. The addition of Cr can improve the strength and activation energy of the alloy. The activation energy was 569.8 kJ/mol and 639.5 kJ/mol, respectively. © 2020

关键词:

Activation energy Chromium alloys Cobalt alloys Compression testing Constitutive equations Copper alloys Deformation Electronics industry Grain boundaries High resolution transmission electron microscopy High strength alloys Hot working Nickel alloys Recrystallization (metallurgy) Silicon alloys Strain rate Textures

作者机构:

  • [ 1 ] [Ban, Yijie]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 2 ] [Ban, Yijie]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 3 ] [Ban, Yijie]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 4 ] [Zhang, Yi]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 5 ] [Zhang, Yi]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 6 ] [Zhang, Yi]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 7 ] [Jia, Yanlin]College of Materials Science and Engineering, Beijing University of Technology, Beijing; 100124, China
  • [ 8 ] [Jia, Yanlin]School of Materials Science and Engineering, Central South University, Changsha; 410083, China
  • [ 9 ] [Tian, Baohong]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 10 ] [Tian, Baohong]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 11 ] [Tian, Baohong]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 12 ] [Volinsky, Alex A.]Department of Mechanical Engineering, University of South Florida, Tampa; 33620, United States
  • [ 13 ] [Zhang, Xiaohui]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 14 ] [Zhang, Xiaohui]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 15 ] [Zhang, Xiaohui]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 16 ] [Zhang, Qifei]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 17 ] [Zhang, Qifei]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 18 ] [Zhang, Qifei]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 19 ] [Geng, Yongfeng]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 20 ] [Geng, Yongfeng]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 21 ] [Geng, Yongfeng]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 22 ] [Liu, Yong]School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang; 471023, China
  • [ 23 ] [Liu, Yong]Collaborative Innovation Center of Nonferrous Metals, Luoyang; Henan Province; 471023, China
  • [ 24 ] [Liu, Yong]Henan Key Laboratory of Nonferrous Materials Science and Processing Technology, Luoyang; 471023, China
  • [ 25 ] [Li, Xu]Center for Advanced Measurement Science, National Institute of Metrology, Beijing; 100029, China

通讯作者信息:

  • [zhang, yi]collaborative innovation center of nonferrous metals, luoyang; henan province; 471023, china;;[zhang, yi]school of materials science and engineering, henan university of science and technology, luoyang; 471023, china;;[zhang, yi]henan key laboratory of nonferrous materials science and processing technology, luoyang; 471023, china

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来源 :

Materials and Design

ISSN: 0264-1275

年份: 2020

卷: 191

8 . 4 0 0

JCR@2022

JCR分区:1

被引次数:

WoS核心集被引频次: 0

SCOPUS被引频次: 56

ESI高被引论文在榜: 0 展开所有

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