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Authors:
Tang, Shunlong |
Zhou, Meng |
Zhang, Yi |
Xu, Deye |
Zhang, Zhiyang |
Zheng, Xianhua |
Li, De |
Li, Xu |
Tian, Baohong |
Jia, Yanlin |
Liu, Yong |
Volinsky, Alex A. |
Marchenko, Ekaterina S.
Source: Materials science and engineering A. 2023. Vol. 871. P. 144910 (1-16)
Type: статьи в журналах
Date: 2023
Description:
In this paper, new Cu–Ni–Sn–Ti–Cr and Cu–Ni–Sn–Ti–Cr–Ce alloys were prepared and studied. After solution treatment and 60% cold rolling, the Cu–Ni–Sn–Ti–Cr alloy with micro-hardness of 221 HV, a tensi
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Authors:
Zhou, Meng |
Geng, Yongfeng |
Zhang, Yi |
Ban, Yijie |
Li, Xu |
Jia, Yanlin |
Liang, Shengli |
Tian, Baohong |
Liu, Yong |
Volinsky, Alex A.
Source: Materials characterization. 2022. Vol. 195. P. 112494 (1-9)
Type: статьи в журналах
Date: 2022
Description:
Copper alloys are widely used as lead frames, electric contact wires and pantographs due to their high electrical conductivity and excellent mechanical properties. At present work, a medium electrical
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Authors:
Tang, Shunlong |
Zhou, Meng |
Li, Xu |
Zhang, Yi |
Xu, Deye |
Zhang, Zhiyang |
Tian, Baohong |
Jia, Yanlin |
Liu, Yong |
Volinsky, Alex A. |
Marchenko, Ekaterina S.
Source: Materials today communications. 2022. Vol. 31. P. 103771 (1-13)
Type: статьи в журналах
Date: 2022
Description:
The Cu-1Ni-0.9Sn-0.5Ti-0.3Cr alloy was prepared by vacuum induction melting. The hot deformation experiments with the alloy were carried out using the Gleeble-1500 deformation simulation device at 0.0
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