李信

2021级博士研究生

个人履历
2021.09-至今,山东大学(威海),机械,工学博士在读 2018.09-2021.07, 深圳大学,机械工程, 工学硕士 2014.09-2018.06,东华理工大学,机械工程,工学学士
人才称号
联系方式
E-mail:lixin2018@email.szu.edu.cn 办公室:机电楼S210
研究领域
新型合金的超声波加工与成型;
获得荣誉
2019-2020年度国家奖学金 机电学院2019-2020科研优秀奖 多次获得学业奖学金
代表论文
  1. Li X, Kaikai Song*, Jiang Ma*. Ultrasonic vibration enabled under-liquid forming of metallic glasses. Science Bulletin, doi:10.1016/j.scib.2023.11.049 (2023).(2022 IF=18.900)
  2. Li X,Wei D,Zhang J.Y et al. Ultrasonic plasticity of metallic glass near room temperature[J]. Applied Materials Today, 2020, 21.(2019 IF=8.352)
  3. Li X, Liang X, Zhang Z, et al. Cold joining to fabricate large size metallic glasses by the ultrasonic vibrations[J]. Scripta Materialia, 2020, 185: 100.(2019 IF=5.079)
  4. 李信,马将.非晶合金的超声制造与成型[J].自然杂志,2020,42(02):125-133.(科技核心)
  5. Liu X, Li X, et al. Machine learning-based glass formation prediction in multicomponent alloys[J]. Acta Materialia 2020, 201:182-190.(2019 IF=7.656)
  6. Li R, Li X, Ma J, et al. Sub-grain formation in Al–Li–Mg–Zn–Cu lightweight entropic alloy by ultrasonic hammering[J]. Intermetallics, 2020, 121: 106780.-104.(2019 IF=3.398)
  7. Liang X, Zhu X L, Li X, et al. High-entropy alloy and amorphous alloy composites fabricated by ultrasonic vibrations[J]. SCIENCE CHINA Physics, Mechanics & Astronomy, 2020, 63(11): 116111. (2019 IF=4.226)
  8. Wu K , Meng Y , Li X , et al. Improved alkaline hydrogen evolution performance of a Fe78Si9B13 metallic glass electrocatalyst by ultrasonic vibrations[J]. Intermetallics, 2020, 125:106820. (2019 IF=3.398)
  9. Yuan C , Lv Z , Pang C , Li X & Shen, B. Ultrasonic-assisted plastic flow in a Zr-based metallic glass锆基金属玻璃超声振动下的塑性流动行为[J]. Science China Materials, 2020. (2019 IF=6.098)
  10. Li Z, Huang Z, Sun F, Li X, Ma J. Forming of metallic glasses: mechanisms and processes[J]. Materials Today Advances, 2020, 7: 100077.
代表专利
代表著作
发布于 2021-09-05
更新于 2024-01-23
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