副研究员
研究方向:金属材料学
联系方式:wensenwei@hmfl.ac.cn
研究简介:
聚焦于金属材料学方向,制备了Rh2Mo3N、FeGe、MnSi、Co-Zn-Mn等多种前沿金属功能材料。当前致力于高性能铜合金的研发,聚焦于通过在铜基体中添加适量银元素开发高强高导铜银合金,结合冷变形等多种工艺引入位错强化与时效处理析出纳米级银颗粒等手段,实现强度与导电率的协同提升,成功获得抗拉强度达900 MPa、电导率为72% IACS的铜银合金。该合金在保持较高导电率的同时具有优良的力学性能,适用于稳态强磁场水冷磁体的使用,已稳定实现高达35.0 T的超高磁场。
发表论文列表:
1. 杜海峰, 韦文森, 房震, 匡光力, 一种提升高强度高导电铜银合金性能的方法及铜银合金 (授权专利,专利号:ZL 2025 1 0147717.7)
2. H. Wang, Y. Liu, H. Xu, W. Wei#, X. Kan# and Y. Han#, Critical behavior of magnetic antiskyrmionic material Mn1.4PtSn, Journal of Alloys and Compounds 1050, 185668 (2026). (#共同通讯)
3. K. Wang, W. Wei# and H. Du#, The Cubic B20 Chiral Magnet FeGe, Advanced Functional Materials 35, 2416203 (2025). (#共同通讯)
4. W. Wei, L. Zu, Y. Han, Y. Xiong, Z. Qu, Y. Hu, B. Wang, H. Du, Near mean-field critical behavior in magnetic antiskyrmion host Mn2Rh0.95Ir0.05Sn, Journal of Alloys and Compounds 945, 169299 (2023).
5. W. Wei, J. Tang, Y. Wu, Y. Wang, J. Jiang, J. Li, Y. Soh, Y. Xiong, M. Tian, and H. Du. Current-controlled topological magnetic transformations in a nanostructured kogome magnet. Advanced Materials 33, 2101610 (2021).
6. W. Wei, Z. He, Z. Qu, H. Du. Dzyaloshinsky-Moriya interaction (DMI)-induced magnetic skyrmion materials, Rare Metals 40, 3076–3090 (2021).
7. L. Zu, J. Gao, F. Liu, Y. Du, P. Wu, Y. Chen, B. Lv, J. Jiang, Y. Wu, W. Wei#, J. Tang, H. Du, and W. Zhao#, Magnetic domains in a uniaxial magnet Dy3Al2, Applied Physics Letters 119, 032404 (2021). (# 共同通讯)
8. W. Wei, M. Ge, S. Wang, L. Zhang, Y. Han, H. Du, M. Tian and Y. Zhang, Superconducting properties of molybdenum ruthenium alloy Mo0.63Ru0.37, The European Physical Journal B 91, 56 (2018).
9. W. Wei, G. J. Zhao, D. R. Kim, C. Jin, J. L. Zhang, L. Ling, L. Zhang, H. Du, T. Y. Chen, J. Zang, M. Tian, C. L. Chien, and Y. Zhang, Rh2Mo3N: Noncentrosymmetric s-wave superconductor, Physical Review B 94, 104503 (2016).