硕士生导师
出生日期:1990-02-02
入职时间:2021-11-27
所在单位:金属材料工程系/电子信息材料系
职务:材料学院实验中心主任
学历:研究生(博士)毕业
办公地点:材料楼主楼607
性别:男
学位:博士学位
在职信息:在职
毕业院校:日本国立综合研究大学院大学
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[9] Yongqiang Qin, Chenyu Deng, Bing Ma*, Yifan Zhang, Laima Luo*, Yucheng Wu. Effects of composite oxide addition on the microstructure and properties of ODS copper. Journal of Alloys and Compounds. 1 (2023) 170380.
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[8] Xiaoyuan Sun, Yifan Zhang*, Bing Ma*, et al. A comparative study on the microstructure and performance stability of Cu-Al2O3 and Cu-Y2O3 alloys after high-temperature annealing. Nuclear Materials and Energy 36 (2023) 101480
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[7] B. Huang, Bing Ma*, et al. Investigations on the formation of multi-modal size distribution of mechanochemically processed Cu-Y-CuO powders. Fusion Engineering and Design 158 (2020) 111852.
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[6] Bing Ma, et al. Influence of Cu-Y compound content on the microstructure of Cu-Y2O3 dispersion strengthened alloys synthesized by MA and HIP process. Plasma and Fusion Research. Volume 16, 2405053 (2021).
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[5] Bing Ma, et al. Irradiation creep lifetime analysis on first wall structure materials for CFETR. Fusion Engineering and Design 118 (2017) 117–123.
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[4] Bing Ma, et al. Development of Y2O3 dispersion strengthened Cu alloy using Cu6Y and Cu2O addition through the MA-HIP process. Fusion Engineering and Design 161 (2020) 112045.
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[3] Bing Ma, et al. The size dependence of microstructure and hardness on the MA powders for the MA-HIP processed Cu-Y2O3 dispersion-strengthened alloys. Nuclear Materials and Energy 24 (2020) 100773. [小类一区]
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[2] Bing Ma, et al. The optimization of Cu6Y sourced ODS-Cu: Effect of Y2O3 content Nuclear Materials and Energy 34 (2023) 101404. [小类一区]
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[1] Bing Ma,et al. Effect of different Y components on optimization of dispersive Y2O3 particles in ODS-Cu. Journal of Nuclear Materials 571 (2022) 154016 [小类一区Top]
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