磁电子材料与器件研究组

教育经历：

        2003/9 - 2007/7，武汉科技大学，冶金工程，学士

        2007/9 - 2012/7，中国科学院研究生院，材料物理化学，博士

工作经历：

        2012/8 - 2013/6，天津非晶科技有限公司，工程师；

        2013/7 – 2015/6，中科院宁波材料所，博士后；

        2015/7 – 2015/12，中科院宁波材料所，助理研究员；

        2016/1 – 至今，中科院宁波材料所，副研究员；  

        2016/3 –至今，香港城市大学，访问学者；

研究方向：

    1) 新型节能非晶、纳米晶软磁合金开发及性能研究；

    2) 新型非晶和纳米晶合金带材生产及热处理工艺研究；

    3) 非晶和纳米晶合金在电机等新兴领域的应用技术研究。

主持科研项目：

发表论文：

1. C. Pingbo, W. Anding, Z. Chengliang, H. Aina, W. Gang, C. Chuntao, W. Xinmin, L. Chain-Tsuan, Development of soft magnetic amorphous alloys with distinctly high Fe content, SCIENCE CHINA Physics, Mechanics & Astronomy, (2017).
2. J. Pang, A. Wang, S. Yue, F. Kong, K. Qiu, C. Chang, X. Wang, C.-T. Liu, Fluxing purification and its effect on magnetic properties of high-Bs FeBPSiC amorphous alloy, J. Magn. Magn. Mater., (2017).
3. J. Pang, K. Qiu, C. Wang, D. Wang, A. Wang, C. Chang, X. Wang, C.-T. Liu, Oxidation and refreshing behaviors of P-containing Fe-based amorphous ribbons, J. Non-Cryst. Solids, (2017).
4. J. Pang, K. Qiu, F. Kong, A. Wang, X. Liang, C. Wang, C. Chang, X. Wang, C.-T. Liu, FeNiSiBP glassy alloys with tunable and attractive magnetic performance, J. Non-Cryst. Solids, (2017).
5. F. Wan, T. Liu, F. Kong, A. Wang, M. Tian, J. Song, J. Zhang, C. Chang, X. Wang, Surface crystallization and magnetic properties of FeCuSiBNbMo melt-spun nanocrystalline alloys, Mater. Res. Bull., (2017).
6. T. Liu, F. Kong, L. Xie, A. Wang, C. Chang, X. Wang, C.-T. Liu, Fe(Co)SiBPCCu nanocrystalline alloys with high Bs above 1.83 T, J. Magn. Magn. Mater., 441 (2017) 174-179.
7. J.H. Zhang, F.P. Wana, Y.C. Li, J.C. Zheng, A.D. Wang, J.C. Song, M.Q. Tian, A. He, C.T. Chang, Effect of surface crystallization on magnetic properties of Fe82Cu1Si4B11.5Nb1.5 nanocrystalline alloy ribbons, J. Magn. Magn. Mater., 438 (2017) 126-131.
8. C.J. Wang, A.N. He, A.D. Wang, J. Pang, X.F. Liang, Q.F. Li, C.T. Chang, K.Q. Qiu, X.M. Wang, Effect of P on glass forming ability, magnetic properties and oxidation behavior of FeSiBP amorphous alloys, Intermetallics, 84 (2017) 142-147.
9. X.F. Liang, A.N. He, A.D. Wang, J. Pang, C.J. Wang, C.T. Chang, K.Q. Qiu, X.M. Wang, C.T. Liu, Fe content dependence of magnetic properties and bending ductility of FeSiBPC amorphous alloy ribbons, J. Alloys Compd., 694 (2017) 1260-1264.
10. P.P. Li, A.D. Wang, C.T. Liu, A ductile high entropy alloy with attractive magnetic properties, J. Alloys Compd., 694 (2017) 55-60.
11. P.P. Li, A.D. Wang, C.T. Liu, Composition dependence of structure, physical and mechanical properties of FeCoNi(MnAl)(x) high entropy alloys, Intermetallics, 87 (2017) 21-26.
12. B. Huang, Y. Yang, A.D. Wang, Q. Wang, C.T. Liu, Saturated magnetization and glass forming ability of soft magnetic Fe-based metallic glasses, Intermetallics, 84 (2017) 74-81.
13. B. Huang, Q.F. He, A.D. Wang, C.L. Zhao, Q. Wang, Y. Yang, C.T. Liu, Tunable elastic heterogeneity caused by deformation-induced magnetization in flexible metallic glass, Scripta Mater., 130 (2017) 7-11.
14. Y. Han, R. Wei, Z. Li, F. Li, A. Wang, C. Chang, X. Wang, Improvement of magnetic properties for V-substituted Fe73.5Si13.5B9Cu1Nb3−xVx nanocrystalline alloys, Journal of Materials Science: Materials in Electronics, 28 (2017) 10555-10563.
15. P. Chen, T. Liu, F. Kong, A. Wang, C. Yu, G. Wang, C. Chang, X. Wang, Ferromagnetic element microalloying and clustering effects in high Bs Fe-based amorphous alloys, Journal of Materials Science & Technology, (2017).
16. C.L. Zhao, A.D. Wang, A.N. He, S.Q. Yue, C.T. Chang, X.M. Wang, R.W. Li, Correlation between soft-magnetic properties and T-x1-T-c in high B-s FeCoSiBPC amorphous alloys, J. Alloys Compd., 659 (2016) 193-197.
17. A.D. Wang, C.L. Zhao, A.N. He, S.Q. Yue, C.T. Chang, B.L. Shen, X.M. Wang, R.W. Li, Development of FeNiNbSiBP bulk metallic glassy alloys with excellent magnetic properties and high glass forming ability evaluated by different criterions, Intermetallics, 71 (2016) 1-6.
18. A.D. Wang, C.L. Zhao, A.N. He, H. Men, C.T. Chang, X.M. Wang, Composition design of high B-s Fe-based amorphous alloys with good amorphous-forming ability, J. Alloys Compd., 656 (2016) 729-734.
19. F.P. Wan, A.N. He, J.H. Zhang, J.C. Song, A.D. Wang, C.T. Chang, X.M. Wang, Development of FeSiBNbCu Nanocrystalline Soft Magnetic Alloys with High B-s and Good Manufacturability, J. Electron. Mater., 45 (2016) 4913-4918.
20. A.N. He, A.D. Wang, S.Q. Yue, C.L. Zhao, C.T. Chang, H. Men, X.M. Wang, R.W. Li, Dynamic magnetic characteristics of Fe78Si13B9 amorphous alloy subjected to operating temperature, J. Magn. Magn. Mater., 408 (2016) 159-163.
21. Y.B. Han, A.D. Wang, A.N. He, C.T. Chang, F.S. Li, X.M. Wang, Improvement of magnetic properties, microstructure and magnetic structure of Fe73.5Cu1Nb3Si15.5B7 nanocrystalline alloys by two-step annealing process, Journal of Materials Science-Materials in Electronics, 27 (2016) 3736-3741.
22. Z. Xiang, A.D. Wang, C.L. Zhao, H. Men, X.M. Wang, C.T. Chang, D. Pan, Optimization of thermal stability and soft-magnetic properties of FeSiBPCuNb alloys by Nb content tuning, J. Alloys Compd., 622 (2015) 1000-1004.
23. A.D. Wang, C.L. Zhao, H. Men, A.N. He, C.T. Chang, X.M. Wang, R.W. Li, Fe-based amorphous alloys for wide ribbon production with high B-s and outstanding amorphous forming ability, J. Alloys Compd., 630 (2015) 209-213.
24. A.D. Wang, H. Men, C.L. Zhao, C.T. Chang, R.W. Li, X.M. Wang, Crystallization Behavior of FeSiBPCu Nanocrystalline Soft-Magnetic Alloys with High Fe Content, Sci. Adv. Mater., 7 (2015) 2721-2725.
25. Z.Z. Li, A.D. Wang, C.T. Chang, Y.G. Wang, B.S. Dong, S.X. Zhou, FeSiBPNbCu alloys with high glass-forming ability and good soft magnetic properties, Intermetallics, 54 (2014) 225-231.
26. Z.Z. Li, A.D. Wang, C.T. Chang, Y.G. Wang, B.S. Dong, S.X. Zhou, Synthesis of FeSiBPNbCu nanocrystalline soft-magnetic alloys with high saturation magnetization, J. Alloys Compd., 611 (2014) 197-201.
27. M.X. Zhang, A.D. Wang, W.M. Yang, B.L. Shen, Effect of Fe to P concentration ratio on structures, crystallization behavior, and magnetic properties in (Fe0.79+xP0.1-xC0.04B0.04Si0.03)(99)Cu-1 alloys, J. Appl. Phys., 113 (2013) 3.
28. M.X. Zhang, A.D. Wang, B.L. Shen, Enhancement of glass-forming ability of Fe-based bulk metallic glasses with high saturation magnetic flux density, Aip Advances, 2 (2012) 7.
29. M.X. Zhang, F.L. Kong, A.D. Wang, C.T. Chang, B.L. Shen, Soft magnetic properties of bulk FeCoMoPCBSi glassy core prepared by copper mold casting, J. Appl. Phys., 111 (2012) 3.
30. J.H. Zhang, C.T. Chang, A.D. Wang, B.L. Shen, Development of quaternary Fe-based bulk metallic glasses with high saturation magnetization above 1.6 T, J. Non-Cryst. Solids, 358 (2012) 1443-1446.
31. A.D. Wang, M.X. Zhang, J.H. Zhang, H. Men, B.L. Shen, S.J. Pang, T. Zhang, FeNiPBNb bulk glassy alloys with good soft-magnetic properties, J. Alloys Compd., 536 (2012) S354-S358.
32. A.D. Wang, Q.K. Man, M.X. Zhang, H. Men, B.L. Shen, S.J. Pang, T. Zhang, Effect of B to P concentration ratio on glass-forming ability and soft-magnetic properties in (Fe0.5Ni0.5)(0.78)B0.22-xPx (97)Nb-3 glassy alloys, Intermetallics, 20 (2012) 93-97.
33. F.Y. Kong, M. Li, X.Y. Yao, J.M. Xu, A.D. Wang, Z.P. Liu, G.H. Li, Template-free hydrothermal synthesis of VO2 hollow microspheres, Crystengcomm, 14 (2012) 3858-3861.
34. Y.Q. Dong, A.D. Wang, Q.K. Man, B.L. Shen, (Co1-xFex)(68)B21.9Si5.1Nb5 bulk glassy alloys with high glass-forming ability, excellent soft-magnetic properties and superhigh fracture strength, Intermetallics, 23 (2012) 63-67.
35. A.D. Wang, M.X. Zhang, J.H. Zhang, H. Men, B.L. Shen, S.J. Pang, T. Zhang, Effect of Ni addition on the glass-forming ability and soft-magnetic properties of FeNiBPNb metallic glasses, Chin. Sci. Bull., 56 (2011) 3932-3936.
36. A.D. Wang, H. Men, B.L. Shen, G.Q. Xie, A. Makino, A. Inoue, Effect of P on crystallization behavior and soft-magnetic properties of Fe83.3Si4Cu0.7B12-xPx nanocrystalline soft-magnetic alloys, Thin Solid Films, 519 (2011) 8283-8286.
37. F.L. Kong, A.D. Wang, X.D. Fan, H. Men, B.L. Shen, G.Q. Xie, A. Makino, A. Inoue, High B-s Fe84-xSi4B8P4Cux(x=0-1.5) nanocrystalline alloys with excellent magnetic softness, J. Appl. Phys., 109 (2011) 07A303.
38. 孙皓, 王安定, 常春涛, 门贺, 王新敏, 潘登. Fe-Si-B-P-Mo系高饱和磁感应强度非晶软磁合金. 功能材料. 2015(04):61-5.
39. 王安定, 张明晓, 张建花, 门贺, 沈宝龙, 逄淑杰, et al. Ni对FeNiBPNb非晶合金非晶形成能力及软磁性能的影响. 科学通报. 2011;56(28):2353-7.

申请专利：

1. 王安定、常春涛、刘锦川、刘涛、王新敏、岳士强，具有高磁感应强度高杂质兼容性的铁基纳米晶合金及利用工业原料制备该合金的方法，中国发明专利，申请号：201710135563.5
2. 王安定，常春涛，贺爱娜，岳世强，王新敏, 一种纳米晶合金带材的热处理方法和装置,中国发明专利, 申请号：201610057461.1
3. 贺爱娜、王安定、常春涛、王新敏、岳士强、万方培、赵成亮, 一种基于非晶合金或纳米晶合金的磁电式转速传感器, 中国实用新型专利，申请号：201621260369.7
4. 王安定，贺爱娜，常春涛，王新敏，门贺，赵成亮，一种用于磁性器件的芯铁及其制备方法，发明专利。201510136838.8。
5. 王安定，贺爱娜，常春涛，王新敏，门贺，赵成亮，一种用于磁性器件的芯铁，使用新型。201520175890.X。
6. 王安定，赵成亮，常春涛，王新敏，门贺，贺爱娜，一种制备纳米晶合金的热处理方法，发明专利。201510259827.9。
7. 王安定，赵成亮，常春涛，王新敏，门贺，贺爱娜，一种快速升温热处理炉，发明专利。201510483080.5.
8. 王安定，赵成亮，常春涛，王新敏，门贺，贺爱娜，一种弯曲断裂应变测试装置和方法，发明专利。201510482345.X。
9. 王安定，常春涛，贺爱娜，岳士强，王新敏，一种纳米晶软磁合金带材预处理系统和方法，发明专利。
10. 常春涛，王安定，赵成亮，门贺，王新敏，具有高饱和磁感应强度和强非晶形成能力的铁基非晶合金，发明专利。201410197139.X。
11. 常春涛，向震，王安定，常春涛，一种铁基纳米晶软磁合金及其制备方法，发明专利。201410415305.9。
12. 赵成亮，常春涛，王安定，门贺，王新敏，具有高饱和磁感应强度和强非晶形成能力的铁基非晶合金，发明专利。201410275727.0。
13. 赵成亮，常春涛，门贺，王安定，王新敏，一种含磷和碳的母合金的熔炼工艺，发明专利。201510318733.4。
14. 周少雄、李宗臻、常春涛、王安定等. 强非晶形成能力的铁基纳米晶软磁合金及其制备方法，发明专利。201410228497.2。
15. 门贺，薛琳，赵成亮，王安定，常春涛，一种铁基纳米晶软磁合金材料及其制备方法，发明专利。CN201410728540.1。