非晶及纳米晶磁性材料的研究与开发

   

080502-材料学
080503-材料加工工程

非晶及纳米晶磁性材料

2009-04--2012-03   日本东北大学   博士研究生
2007-04--2009-03   日本东北大学   硕士研究生
1999-09--2003-06   辽宁大学   大学本科

工学博士（智能设备材料学）

   

2020-07~现在, 中国科学院宁波材料技术与工程研究所, 研究员
2017-05~2019-11,日本东北大学未来科学技术共同研究中心, 助理教授（兼任）
2014-05~2017-03,日本东北大学金属材料研究所超低损失纳米结晶软磁性材料研究开发中心, 助理教授（兼任）
2013-11~2020-07,日本东北大学金属材料研究所, 助理教授
2012-04~2013-10,日本东北大学金属材料研究所, 博士后

2019-04-03-2020-07-31,日本宫城县华侨华人联合会副理事长,

[1] 张岩, 王军强, 霍军涛, 张大伟, 向明亮, 姚冰楠. 一种基于超声的软磁粉材压制成型方法. 202310641146.3, 2023-05-31.
[2] 向明亮, 张岩, 周钢, 霍军涛, 张文武, 王军强. 一种微纳陶瓷绕线电感及其制备方法. 202310303942.6, 2023-03-27.
[3] 张岩, 陈晓欢, 向明亮, 林波, 霍军涛, 王军强. 一种软磁粉末复合物及制备方法和复合磁粉芯材料及制备方法. 202310287221.0, 2023-03-22.
[4] 张岩, 林波, 王军强. 一种粉末热处理的装置及工艺. 202310230702.8, 2023-03-03.
[5] 张岩, 陈亚男, 向明亮, 王军强. 一种复合软磁材料及其制备方法、应用. 202210508942.5, 2022-05-10.
[6] 曹峻华, 蔡远飞, 王军强, 霍军涛, 张岩. 一种高塑性Hf基双相非晶合金及其制备方法. 202210176905.9, 2022-02-25.
[7] 张岩, 王军强, 黄妍. 一种软磁粉末复合物、磁粉芯材料及基于有机物长成的绝缘包覆方法. 202111394149.9, 2021-11-23.
[8] 王军强, 张文武, 张岩, 曹小文, 向明亮, 许巍, 霍军涛. 一体化柔性微纳电感及其制备方法. 202111113391.4, 2021-09-23.
[9] 张岩, 王军强, 黄妍. 一种超声波增强磁粉芯压制成型方法及压粉磁芯. 202111042385.4, 2021-09-07.
[10] 汪姚岑, 张岩, 曹崇德, 郝梓焱. 一种铁镍基硬磁材料及其制备方法. 202110225162.5, 2021-03-01.
[11] 牧野彰宏, SHARMA PARMANAND, 张岩, 吉年規治. 圧粉磁芯の製造方法及び圧粉磁芯. P2017-34105, 2015-08-03.
[12] 卢公昊, 李雪, 张志强, 李胜利, 赵红阳, 张岩, 王晓彤, 王淼. 一种高耐蚀性铁基非晶合金材料. 201410212253.5, 2014-05-19.
[13] 张岩, 牧野彰宏, SHARMA PARMANAND, 西山信行, 竹中佳生. 合金組成物、Fe基ナノ結晶合金薄帯、Fe基ナノ結晶合金粉末及び磁性部品. P2014-34482, 2014-02-25.

   

[1] Xiaohuan Chen, Yan Zhang, Fang Zhao, Mingqiang Tang, Mingliang Xiang, Juntao Huo, Meng Gao, Yaocen Wang, Noriharu Yodoshi, Liyuan Zhang, Junqiang Wang. Fabrication and excellent performance of amorphous FeSiBCCr/organic-inorganic hybrid powder core. JOURNAL OF NON-CRYSTALLINE SOLIDS. 2023, 616: http://dx.doi.org/10.1016/j.jnoncrysol.2023.122482.
[2] Bowen Zang, Lijian Song, Richard Parsons, Jie Shen, Meng Gao, Yan Zhang, Juntao Huo, Yonghao Sun, Fushan Li, Kiyonori Suzuki, JunQiang Wang, Weihua Wang. Influence of thermal history on the crystallization behavior of high-Bs Fe-based amorphous alloys. 中国科学:物理学、力学、天文学英文版[J]. 2023, 66(5): 173-180, http://lib.cqvip.com/Qikan/Article/Detail?id=7109562635.
[3] DW Zhang, Y Zhang, YF Cai, BW Zang, F Zhao, YC Wang, R Umetsu, ZZ Li, X Tong, JT Huo, SL Che, JQ Wang. Magnetic properties evaluation of Fe-based amorphous alloys synthesized via spark plasma sintering. JOURNAL OF NON-CRYSTALLINE SOLIDS. 2023, 613: http://dx.doi.org/10.1016/j.jnoncrysol.2023.122373.
[4] Ma, Yunshuang, Yin, Hangboce, Chen, Fan, Gao, Meng, Song, Lijian, Zhang, Yan, Xu, Wei, Wang, LiMin, Huo, Juntao, Zhang, Shuzhi, Wang, JunQiang. Magnetocaloric effect in (Tm67Cu33)80Al20 amorphous alloy. JOURNAL OF NON-CRYSTALLINE SOLIDS[J]. 2023, 604: http://dx.doi.org/10.1016/j.jnoncrysol.2023.122151.
[5] 宋丽建, 高玉蓉, 邹鹏, 许巍, 张岩, 霍军涛, 李福山, 乔吉超, 王利民, 王军强. Detecting the exponential relaxation spectrum in glasses by high-precision nanocalorimetry. Proceedings of the National Academy of Sciences of the United States of America[J]. 2023, 120(20):  e2302776120-, [6] 张岩. Polydopamine/polyethyleneimine enhanced Fe-based amorphous powder cores with improved magnetic properties. J. Alloys Compd.[J]. 2022, [7] Tong, Xing, Zhang, Yan, Wang, Yaocen, Liang, Xiaoyu, Zhang, Kai, Zhang, Fan, Cai, Yuanfei, Ke, Haibo, Wang, Gang, Shen, Jun, Makino, Akihiro, Wang, Weihua. Structural origin of magnetic softening in a Fe-based amorphous alloy upon annealing. JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY[J]. 2022, 96(1): 233-240, http://dx.doi.org/10.1016/j.jmst.2021.01.098.
[8] Hao, Ziyan, Wei, Linzhuo, Gao, Lei, Wang, Yaocen, Bai, Xiaojun, Tong, Xing, Liang, Xiaoyu, Yodoshi, Noriharu, Umetsu, Rie, Kawazoe, Yoshiyuki, Zhang, Yan, Cao, Chongde. Effect of P addition on soft magnetic properties of Fe-Si-B-P-Cu-C nano-crystalline alloys. INTERMETALLICS[J]. 2022, 151: http://dx.doi.org/10.1016/j.intermet.2022.107713.
[9] Liang, Xiaoyu, Sharma, Parmanand, Zhang, Yan, Kato, Hidemi. Nanoimprinting of magnetic FeCo-based metallic glass thin films. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS[J]. 2022, 542: http://dx.doi.org/10.1016/j.jmmm.2021.168455.
[10] Hao, Ziyan, Wei, Linzhuo, Cai, Yuanfei, Wang, Yaocen, Xiang, Mingliang, Zhao, Fang, Zhang, Yan, Perov, Nikolai S, Cao, Chongde. Effect of multi-step annealing with different heating rates on magnetic properties of Fe-Si-B-P-Cu nano-crystalline alloy. MATERIALS RESEARCH EXPRESS[J]. 2022, 9(12): [11] 张岩. High temperature oxidation behaviors of Ir-Ni-Ta-(B) metallic glass. Corros. Sci.[J]. 2022, [12] Z. Hao, L. Wei, Y. Wang, Y. Kawazoe, X. Liang, R. Umetsu, N. Yodoshi, X. Tong, W. Xia, 张岩, C. Cao. Effect of Si addition on the magnetic properties of FeNi-based alloys with L10 phase through annealing amorphous precursor". JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2022, [13] 张岩. Formation of L10-FeNi hard magnetic material from FeNi-based amorphous alloys. Chinese Phys. B[J]. 2021, [14] Yanhui Li, Xingjie Jia, Wei Zhang, Yan Zhang, Guoqiang Xie, Zhiyong Qiu, Junhua Luan, Zengbao Jiao. Formation and crystallization behavior of Fe-based amorphous precursors with pre-existingα-Fe nanoparticles-Structure and magnetic properties of high-Cu-content Fe-Si-B-Cu-Nb nanocrystalline alloys. 材料科学技术：英文版[J]. 2021, 171-181, http://lib.cqvip.com/Qikan/Article/Detail?id=7104266397.
[15] 张岩. Structural origin of magnetic softening in a Fe-based amorphous alloy upon annealing. J. Mater. Sci. Technol.[J]. 2021, [16] Wu, Licheng, Li, Yanhui, Yubuta, Kunio, He, Aina, Zhang, Yan, Zhang, Wei. Optimization of the structure and soft magnetic properties of a Fe87B13 nanocrystalline alloy by additions of Cu and Nb. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS[J]. 2020, 497: http://dx.doi.org/10.1016/j.jmmm.2019.166001.
[17] Lixian Jiang, Yan Zhang, Xing Tong, Tsuyoshi Suzuki, Akihiro Makino. Unique influence of heating rate on the magnetic softness of Fe81.5Si0.5B4.5P11Cu0.5C2 nanocrystalline alloy. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS. 2019, 471: 148-152, http://dx.doi.org/10.1016/j.jmmm.2018.09.075.
[18] Hu, Fei, Wang, Haiyun, Zhang, Yan, Shen, Xiaochen, Zhang, Guanghui, Pan, Yanbo, Miller, Jeffrey T, Wang, Kun, Zhu, Shengli, Yang, Xianjin, Wang, Chengming, Wu, Xiaojun, Xiong, Yujie, Peng, Zhenmeng. Designing Highly Efficient and Long-Term Durable Electrocatalyst for Oxygen Evolution by Coupling B and P into Amorphous Porous NiFe-Based Material. SMALL[J]. 2019, 15(28): https://www.webofscience.com/wos/woscc/full-record/WOS:000477931100003.
[19] Miao, Baowen, Luo, Qiang, Chang, Chuntao, Liu, Tao, Zhang, Yan, Shen, Jun. Effect of Co addition and annealing conditions on the magnetic properties of nanocrystalline FeCoSiBPCu ribbons. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS[J]. 2019, 477: 156-161, http://dx.doi.org/10.1016/j.jmmm.2019.01.052.
[20] Hu, Fei, Zhang, Yan, Shen, Xiaochen, Tao, Jingying, Yang, Xiaowei, Xiong, Yujie, Peng, Zhenmeng. Porous amorphous NiFeOx/NiFeP framework with dual electrocatalytic functions for water electrolysis. JOURNAL OF POWER SOURCES[J]. 2019, 428: 76-81, http://dx.doi.org/10.1016/j.jpowsour.2019.04.098.
[21] Yan Zhang. Fabrication and Properties of Under 10 μm Sized Amorphous Powders of High Bs Soft Magnetic Alloy for High-Frequency Applications. IEEE Trans. Magn.[J]. 2018, [22] Wang, YaoCen, Zhang, Yan, Kawazoe, Yoshiyuki, Shen, Jun, Cao, ChongDe. Ab initio molecular dynamics simulations of nano-crystallization of Fe-based amorphous alloys with early transition metals. CHINESE PHYSICS B[J]. 2018, 27(11): 300-304, http://lib.cqvip.com/Qikan/Article/Detail?id=676727011.
[23] Wang, Yaocen, Zhang, Yan, Makino, Akihiro, Kawazoe, Yoshiyuki. First principle study on the Si effect in the Fe-based soft magnetic nano-crystalline alloys. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2018, 730: 196-200, http://dx.doi.org/10.1016/j.jallcom.2017.09.311.
[24] Yan Zhang. Confirmation of Hard Magnetic L10 FeNi Phase Precipitated in FeNiSiBPCu Alloy by Anomalous X-Ray Diffraction. IEEE Trans. Magn.[J]. 2018, [25] Fu, Chaoqun, Qu, Jiahui, Dan, Zhenhua, Qin, Fengxiang, Zhang, Yan, Hara, Nobuyoshi, Chang, Hui, Zhou, Lian. Enhanced Redox properties of amorphous Fe63.3-83.3Co0-20Si4B8P4Cu0.7 alloys via long-term CV cycling. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2018, 751: 349-358, http://dx.doi.org/10.1016/j.jallcom.2018.04.119.
[26] Zhang, Yan, Wang, Yaocen, Makino, Akihiro. Structural and magnetic properties on the Fe-B-P-Cu-W nano-crystalline alloy system. AIP ADVANCES[J]. 2018, 8(4): https://doaj.org/article/ae2f3830e14644fab905a2d49ed9b597.
[27] Yan Zhang. The role of Cu content on structure and magnetic properties of Fe–Si–B–P–Cu nanocrystalline alloys". J. Mater. Sci.[J]. 2018, [28] Zhang, Yan, Sharma, Parmanand, Makino, Akihiro. Effects of minor precipitation of large size crystals on magnetic properties of Fe-Co-Si-B-P-Cu alloy. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2017, 709: 663-667, http://dx.doi.org/10.1016/j.jallcom.2017.03.193.
[29] Yan Zhang. Stress-Enhanced Transformations from Hypothetical B2 to Stable L10 and Amorphous to fcc Phases in Fe50Ni50 Binary Alloy by Molecular Dynamic Simulations. Mater. Trans.[J]. 2017, [30] Hu, Fei, Zhu, Shengli, Chen, Shuangming, Li, Yu, Ma, Lu, Wu, Tianpin, Zhang, Yan, Wang, Chengming, Liu, Congcong, Yang, Xianjin, Song, Li, Yang, Xiaowei, Xiong, Yujie. Amorphous Metallic NiFeP: A Conductive Bulk Material Achieving High Activity for Oxygen Evolution Reaction in Both Alkaline and Acidic Media. ADVANCED MATERIALS[J]. 2017, 29(32): http://dx.doi.org/10.1002/adma.201606570.
[31] Yan Zhang. Magnetic properties of L10 FeNi phase developed through annealing of an amorphous alloy. IEEE Trans. Magn.[J]. 2017, [32] Dan, Zhenhua, Qin, Fengxiang, Zhang, Yan, Makino, Akihiro, Chang, Hui, Hara, Nobuyoshi. Mechanism of active dissolution of nanocrystalline Fe-Si-B-P-Cu soft magnetic alloys. MATERIALS CHARACTERIZATION[J]. 2016, 121: 9-16, https://www.webofscience.com/wos/woscc/full-record/WOS:000388052700002.
[33] Wang, Yaocen, Zhang, Yan, Takeuchi, Akira, Makino, Akihiro, Kawazoe, Yoshiyuki. Investigation on the crystallization mechanism difference between FINEMET (R) and NANOMET (R) type Fe-based soft magnetic amorphous alloys. JOURNAL OF APPLIED PHYSICS[J]. 2016, 120(14): https://www.webofscience.com/wos/woscc/full-record/WOS:000386535400057.
[34] Luan, Jian, Sharma, Parmanand, Yodoshi, Noriharu, Zhang, Yan, Makino, Akihiro. Mechanically strong nanocrystalline Fe-Si-B-P-Cu soft magnetic powder cores utilizing magnetic metallic glass as a binder. AIP ADVANCES[J]. 2016, 6(5): https://doaj.org/article/aad12469e8f543218f572314010be7a6.
[35] Yan Zhang. MnFeNiCuPt and MnFeNiCuCo high-entropy alloys designed based on L10 structure in Pettifor map for binary compounds. Intermetallics[J]. 2016, [36] Yan Zhang. Crystallization induced ordering of hard magnetic L10 phase in melt-spun FeNi based ribbons. AIP Adv.[J]. 2016, [37] Dan, Zhenhua, Zhang, Yan, Takeuchi, Akira, Hara, Nobuyoshi, Qin, Fengxiang, Makino, Akihiro, Chang, Hui. Effect of substitution of Cu by Au and Ag on nanocrystallization behavior of Fe83.3Si4B8P4Cu0.7 soft magnetic alloy. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2016, 683: 263-270, https://www.webofscience.com/wos/woscc/full-record/WOS:000378835200036.
[38] Zhang, Yan, Sharma, Parmanand, Yodoshi, Noriharu, Makino, Akihiro. Production of a magnetic material with the ability to change from very soft to semi-hard magnetic. JOURNAL OF APPLIED PHYSICS[J]. 2015, 117(17): https://www.webofscience.com/wos/woscc/full-record/WOS:000354984100513.
[39] Zhang, Yan, Sharma, Parmanand, Makino, Akihiro. Production and Properties of Soft Magnetic Cores Made From Fe-Rich FeSiBPCu Powders. IEEE TRANSACTIONS ON MAGNETICS[J]. 2015, 51(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000349446800018.
[40] Makino, Akihiro, Sharma, Parmanand, Sato, Kazuhisa, Takeuchi, Akira, Zhang, Yan, Takenaka, Kana. Artificially produced rare-earth free cosmic magnet. SCIENTIFIC REPORTS[J]. 2015, 5: https://www.webofscience.com/wos/woscc/full-record/WOS:000364671800001.
[41] Yan Zhang. Thermodynamic Analysis of Binary Fe85B15 to Quinary Fe85Si2B8P4Cu1 Alloys for Primary Crystallizations of α-Fe in Nanocrystalline Soft Magnetic Alloys. J. Appl. Phys.[J]. 2015, [42] Yan Zhang. Observation of Cu nanometre scale clusters formed in Fe85Si2B8P4Cu1 nanocrystalline soft magnetic alloy by a spherical aberration. Phil. Mag. Lett.[J]. 2015, [43] Wang, Yaocen, Zhang, Yan, Takeuchi, Akira, Makino, Akihiro, Liang, Yunye, Kawazoe, Yoshiyuki. First-principle simulation on the crystallization tendency and enhanced magnetization of Fe76B19P5 amorphous alloy. MATERIALS RESEARCH EXPRESS[J]. 2015, 2(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000369978500042.
[44] Yan Zhang. Magnetic influence of alloying elements in Fe rich amorphous alloys studied by ab initio molecular dynamics simulations. IEEE Trans. Magn.[J]. 2015, [45] Yan Zhang. Competition driven nano-crystallization in high Bs and low coreloss Fe-Si-B-P-Cu soft magnetic alloys. Scripta Mater.[J]. 2014, [46] Yan Zhang. Influence of microstructure on soft magnetic properties of low coreloss and high Bs Fe85Si2B8P4Cu1 nanocrystalline alloy. J. Appl. Phys.[J]. 2014, [47] Nishijima, Masahiko, Matsuura, Makoto, Zhang, Yan, Takenaka, Kana, Makino, Akihiro. X-Ray Absorption Studies of Fe85Si2B8P4Cu1 Alloy. IEEE TRANSACTIONS ON MAGNETICS[J]. 2014, 50(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000343032900030.
[48] Yan Zhang. Effects of Cobalt Addition in Nano-crystalline Fe83.3Si4B8P4Cu0.7 Soft Magnetic Alloy. IEEE Trans. Magn.[J]. 2014, [49] Dan, Zhenhua, Takenaka, Kana, Zhang, Yan, Unami, Shigeru, Takeuchi, Akira, Hara, Nobuyoshi, Makino, Akihiro. Effect of Si addition on the corrosion properties of amorphous Fe-based soft magnetic alloys. JOURNAL OF NON-CRYSTALLINE SOLIDS[J]. 2014, 402: 36-43, http://dx.doi.org/10.1016/j.jnoncrysol.2014.05.007.
[50] Wang, Yaocen, Zhang, Yan, Makino, Akihiro, Liang, Yunye, Kawazoe, Yoshiyuki. Structural and Magnetic Study of Fe76Si9B10P5 Metallic Glass by First Principle Simulation. IEEE TRANSACTIONS ON MAGNETICS[J]. 2014, 50(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000343032900027.
[51] Yan Zhang. Production of Nanocrystalline (Fe, Co)-Si-B-P-Cu Alloy with Excellent Soft Magnetic Properties for Commercial Application. Mater. Trans.[J]. 2014, [52] Zhang, Yan, Sharma, Parmanand, Makino, Akihiro. Fe-Rich Fe-Si-B-P-Cu Powder Cores for High-Frequency Power Electronic Applications. IEEE TRANSACTIONS ON MAGNETICS[J]. 2014, 50(11): https://www.webofscience.com/wos/woscc/full-record/WOS:000349465900043.
[53] Matsuura, Makoto, Zhang, Yan, Nishijima, Masahiko, Makino, Akihiro. Role of P in Nanocrystallization of Fe85Si2B8P4Cu1. IEEE TRANSACTIONS ON MAGNETICS[J]. 2014, 50(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000343032900023.
[54] Yan Zhang. Sintered magnetic cores of high Bs Fe84.3Si4B8P3Cu0.7 nano-crystalline alloy with a lamellar microstructure. J. Appl. Phys.[J]. 2014, [55] Yan Zhang. Sintered powder cores of high Bs and low core loss Fe84.3Si4B8P3Cu0.7 nano-crystalline alloy. AIP Adv.[J]. 2013, [56] Dan, Zhenhua, Yamada, Yasunobu, Zhang, Yan, Nishijima, Masahiko, Hara, Nobuyoshi, Matsumoto, Hiroyuki, Makino, Akihiro. Electrochemical Behavior of Annealed Soft-Magnetic Fe-Si-B-P-Cu Alloy. MATERIALS TRANSACTIONS[J]. 2013, 54(4): 561-565, https://www.webofscience.com/wos/woscc/full-record/WOS:000325707000024.
[57] Wen, Y R, Li, Y P, Hirata, A, Zhang, Y, Fujita, T, Furuhara, T, Liu, C T, Chiba, A, Chen, M W. Synergistic alloying effect on microstructural evolution and mechanical properties of Cu precipitation-strengthened ferritic alloys. ACTA MATERIALIA[J]. 2013, 61(20): 7726-7740, https://www.webofscience.com/wos/woscc/full-record/WOS:000328179700020.
[58] Zhang Yan, Wen Yuren, Makino Akihiro, Goto T, Fu ZY, Zhang LM. Fabrication of Nanocrystalline Fe84.3Si4B8P3Cu0.7 Powders with High Magnetization. MATERIALS INTEGRATIONnull. 2012, 508: 133-+, [59] Yan Zhang. The effect of Co addition on glassy forming ability and soft magnetic properties of Fe-Si-B-P bulk metallic glass. Key Eng. Mater.[J]. 2012, [60] Zhang, Yan, Sharma, Parmanand, Makino, Akihiro. Spark Plasma Sintering of Soft Magnetic Fe-Si-B-P-Cu Nanocrystalline Alloy in the Form of Magnetic Cores. MATERIALS TRANSACTIONS[J]. 2011, 52(12): 2254-2257, https://www.webofscience.com/wos/woscc/full-record/WOS:000299978100022.

   

（ 1 ） 人工制造含L10有序相的新世代无稀土磁铁的研究和开发, 参与, 其他任务, 2017-05--2022-03
（ 2 ） 高磁感应强度低铁损FeCoSiBPCu软磁性材料的研制, 负责人, 其他任务, 2015-04--2018-03
（ 3 ） 人工L10-FeNi无稀土磁铁的基础物性的明解, 参与, 其他任务, 2017-04--2018-03
（ 4 ） 送电损失的抑制和电力损失的大幅减低的新纳米结晶软磁性材料的开发, 参与, 其他任务, 2012-04--2017-03
（ 5 ） Fabrication of core material with low core loss compact by spark plasma sintering, 负责人, 其他任务, 2011-04--2012-03
（ 6 ） Fabrication of Fe-rich Fe-Si-B-P-Cu nanocrystalline alloy compact by spark plasma sintering, 负责人, 其他任务, 2010-04--2011-03
（ 7 ） Spark plasma sintered Fe-based nanocrystalline alloy with high Fe concentration, 负责人, 其他任务, 2009-04--2010-03
（ 8 ） 高性能电机磁性材料与工艺研发应用, 参与, 地方任务, 2022-01--2024-12
（ 9 ） 非晶纳米晶磁性材料工程中心, 负责人, 企业委托, 2021-12--2024-11
（ 10 ） 高性能软磁粉末开发及电磁仿真模型研发, 参与, 企业委托, 2021-06--2023-05

（1）非晶纳米晶软磁材料的研究与开发   第二届非晶合金粉末技术与应用国际研讨会的通知   2020-09-13
（2）Heating rate effect on soft magnetic properties and crystallization of Fe-Si-B-P-Cu(-C) amorphous alloy system   2019-08-19
（3）Annealing Effects on Soft Magnetic Properties and Crystallization Behavior of Fe- Si-B-P-Cu-C Alloy   2018-07-23
（4）Unusual influence of a heating rate on soft magnetic properties of Fe81.5Si0.5B4.5P11Cu0.5C2 nano-crystalline alloy   2018-07-17
（5）Effect of adding W and Si on the critical heating rate in fabricating the Fe-based nanocrystalline alloys   2017-09-12
（6）NANOMET® and FINEMET®: Investigation on the crystallization mechanism between different kinds of Fe-based soft magnetic nano-composite alloys   2017-04-27
（7）Upper limit for obtaining high Bs and low Hc in nanocrystalline FeCoSiBPCu alloys   2016-11-02
（8）Newly Developed High Magnetic Flux Density and Soft Magnetic NANOMET® Powder Cores   2015-07-09
（9）Soft Magnetic Properties of Fe-rich FeSiBPCu Amorphous Powder   2014-07-08

• 非晶纳米晶磁性材料工程中心，与天智合金共同合作，210万元，2021.12.01-2024.11.30，1/11

• 高性能软磁粉末开发及电磁仿真模型研发，与中科毕普拉斯共同合作，50万元，2021.06-2023.05，3/5

• 非晶及纳米晶结构的软磁性金属粉末的研究，与村田制作所共同合作，约21万元，2014-2015，3/3

• 纳米晶软磁材料实用化相关的应用研究，与松下电器产业株式会社共同合作，约25万元，2014-2015，2/2

• 块体纳米热电材料制作相关研究，与住友电气工业株式会社共同合作，约8万元，2014-2014，2/2

• 非晶及纳米晶结构的软磁性金属粉末的研究，与村田制作所共同合作，约16万元，2013-2014，3/3

现指导学生

陈亚男  硕士研究生  080501-材料物理与化学