臧博闻
日期:2020-01-20, 查看:940

臧博闻,出站博士后

研究方向:

       高Bs铁基纳米晶合金开发,铁基非晶合金高加热速率下的晶化行为

学习与工作经历:

       2019.12-2023.07,博士后,中科院宁波材料所,宁波

       2019.01-2019.10,实验助理,澳大利亚Monash大学,Clayton(VIC)

       2015.03-2019.01,材料工程学博士,澳大利亚Monash大学,Clayton(VIC)

       2010.02-2014.12,材料工程学学士,澳大利亚Monash大学,Clayton(VIC)

发表文章:

  1. Bowen Zang, Lijian Song*, Richard Parsons, Jie Shen, Meng Gao, Yan Zhang, Juntao Huo, Yonghao Sun, Fushan Li, Kiyonori Suzuki*, Jun-Qiang Wang*, and Weihua Wang. Influence of thermal history on the crystallization behavior of high-Bs Fe-based amorphous alloys [J]. SCIENCE CHINA Physics, Mechanics & Astronomy, 2023, 66, 5,256111. 
  2. Yurong Gao, Yu Tong, Lijian Song,*, Jiacheng Liu, Bowen Zang, Mingliang Xiang, Meng Gao,Yan Zhang, Juntao Huo, and Jun-Qiang Wang. Effect of stress relaxation on soft magnetic properties of Fe76Si9B10P5 metallic glass [J]. EUROPEAN PHYSICAL JOURNAL-APPLIED PHYSICS, 98, 20 (2023).
  3. D.W. Zhang1, Y. Zhang 1,*, Y.F. Cai , B.W. Zang , F. Zhao , Y.C. Wang , R. Umetsu ,Z.Z. Li , X. Tong , J.T. Huo , S.L. Che *, J.Q. Wang*. Magnetic properties evaluation of Fe-based amorphous alloys synthesized via spark plasma sintering [J]. Journal of Non-Crystalline Solids, 613 (2023) 122373. 
  4. Xuanzhi Liu, Peng Zou, Lijian Song, Bowen Zang, Bingnan Yao, Wei Xu, Fushan Li, Jan Schroers, Juntao Huo*, and Jun-Qiang Wang*. Combinatorial High-Throughput Methods for Designing Hydrogen Evolution Reaction Catalysts[J]. ACS Catalysis, 2022, 12, 3789−3796.
  5. Juntao Huo, Kangyuan Li, Bowen Zang, Meng Gao, Li-Min Wang, Baoan Sun, Maozhi Li, Lijian Song*, Jun-Qiang Wang*, and Wei-Hua Wang. High Mixing Entropy Enhanced Energy States in Metallic Glasses[J]. Chinese Physics Letters, 39, 046401 (2022).
  6. Yan Huang, Bowen Zang, Chang Zhang, Mingliang Xiang, Peng Xiao, Juntao Huo,  Meng Gao, Rie Umetsud, Min Ji, Bingnan Yao, Yan Zhang⁎, Yaocen Wang⁎, Junqiang Wang*. Polydopamine/polyethyleneimine enhanced Fe-based amorphous powder cores with improved magnetic properties[J]. Journal of Alloys and Compounds, 920 (2022) 165889.
  7. B. Zang, R. Parsons, K. Onodera, H. Kishimoto, T. shoji, A. Kato, J.S. Garitaonandia, A.C.Y. Liu, and K. Suzuki*, Nanostructural formation kinetics in an Fe86B14 soft magnetic alloy investigated by in-situ transport measurements under isothermal conditions, manuscript accepted by Physical Review Materials
  8. R. Parsons*, B. Zang, H. Huang, H. Kishimoto, T. Shoji, A. Kato, K. Suzuki. Effect of latent heat during primary crystallization on the nanostructural formation process in nanocrystalline soft magnetic materials[J]. AIP Adv. 10, 015105 (2020).
  9. Z. Li, R. Parsons, B. Zang, H. Kishimoto, T. Shoji, A. Kato, J. Karel and K. Suzuki*. Dramatic grain refinement and magnetic softening induced by Ni addition in Fe-B based nanocrystalline soft magnetic alloys[J]. Scr. Mater. 181, 82-85 (2020).
  10. R. Parsons, B. Zang, K. Onodera, H. Kishimoto, T. Shoji, A. Kato, and K. Suzuki. Core loss of ultra-rapidly annealed Fe-rich nanocrystalline soft magnetic alloys[J]. J. Magn. Magn. Matr. 476, 142 (2019). 
  11. K. Suzuki, R. Parsons, B. Zang, K. Onodera, H. Kishimoto, T. Shoji, and A. Kato. Nanocrystalline soft magnetic materials from binary alloy precursors with high saturation magnetization[J]. AIP Adv. 9, 035311 (2019).
  12. K. Suzuki*, R. Parsons, B. Zang, K. Onodera, H. Kishimoto, T. Shoji, and A. Kato. Nano-crystallization of amorphous alloys by ultra-rapid annealing: An effective approach to magnetic softening[J]. J. Alloys Compd. 735, 613 (2018).
  13. R. Parons, B. Zang, K. Onodera, H. Kishimoto, T. shoji, A. Kato, and K. Suzuki*, Nano-crystallisation and magnetic softening in Fe–B binary alloys induced by ultra-rapid heating[J]. J. Phys. D: Appl. Phys. 51, 415001 (2018).
  14. B. Zang*, K. Suzuki, and A. C. Y. Liu. Estimation of volume-weighted average grain size in Fe-based nanocrystalline soft magnetic materials by autocorrelation function[J]. Mater. Charact. 142, 577 (2018). 
  15. B. Zang, R. Parsons, K. Onodera, H. Kishimoto, A. Kato, A. C. Y. Liu, and K. Suzuki*. Effect of heating rate during primary crystallization on soft magnetic properties of melt-spun Fe-B alloys[J]. Scr. Mater. 132, 68 (2017). 
  16. K. Suzuki*, R. Parsons, B. Zang, K. Onodera, H. Kishimoto, and A. Kato. Copper-free nanocrystalline soft magnetic materials with high saturation magnetization comparable to that of Si steel[J]. Appl. Phys. Lett. 110, 12407 (2017). 
  17. R. Parsons*, B. Zang, K. Onodera, H. Kishimoto, A. Kato, and K. Suzuki. Soft magnetic properties of rapidly-annealed nanocrystalline Fe-Nb-B-(Cu) alloys[J]. J. Alloys Compd. 723, 408 (2017).​

申请专利:

  1. 臧博闻,申发元,杨世玉,霍军涛,张岩,王军强. 一种纳米晶软磁合金及其应用:中国发明专利,202310297839.5 [P]. 2023-03-24.
  2. 王军强;臧博闻;许巍;宋丽建;姚冰楠. 一种高饱和磁感非晶纳米晶材料及其热处理装置和方法: 中国发明专利, 202110835613.7[P]. 2021-07-23.(已授权)