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Home > Archive>Volume 52, Issue 4, 2023 >1520-1529. DOI:10.12442/j.issn.1002-185X.20220285
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Research progress on annealing process of Finemet-type nanocrystalline alloys
Author:
Affiliation:

1.Central Iron & Steel Research Institute Group, Advanced Technology and Materials Co., Ltd;2.Institute of Advanced Materials, North China Electric Power University;3.Jiangsu JITRI Advanced Energy Materials Research Institute Co., Ltd

Clc Number:

TG156

Fund Project:

the National Natural Science Foundation of China (Grant No. 51971093) ; the National Key Research and Development Program of China (Grant No. 2021YFB3802900)

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    Abstract:

    The annealing process is a very effective way to improve the soft magnetic properties of nanocrystalline alloys. In this paper, the research status of annealing process of nanocrystalline alloys are summarized and the characteristics of different annealing process are compared. Conventional annealing and Joule annealing are the key to determine the final grain size and crystallization ratio of the alloy, which is the premise to obtain the best properties. Magnetic field annealing and stress annealing can change the shape of the hysteresis loop after annealing, obtain higher induced anisotropy and reduce the constant permeability of the material under a certain magnetic field strength. Up to now, furnace annealing and magnetic field annealing are already widely applied, while joule annealing and stress annealing are affected by process equipment and production efficiency respectively, resulting in the lag of their industrial application. However, the high efficiency of Joule annealing and the extremely high induced anisotropy of stress field annealing also have significant advantages, which means the potentiality of futher industrial application.

    Reference
    [1] Silveyra J M, Ferrara E, Huber D L, et al. Science[J]. 2018, 362(6413).
    [2] Azuma D, Ito N, Ohta M. Journal of magnetism and magnetic materials [J]. 2020, 501(May): 166371-166373.
    [3] Suzuki K, Parsons R, Zang B, et al. AIP Advances [J]. 2019, 9(3).
    [4] Yoshizawa, Y., Oguma, et al. Journal of Applied Physics [J]. 1988.
    [5] Liu T, Wang A, Zhao C, et al. Materials Research Bulletin [J]. 2019, 112: 323-330.
    [6] Gheiratmand T, Hosseini H R M. Journal of Magnetism and Magnetic Materials [J]. 2016, 408(Jun.): 177-192.
    [7] H. R, Lashgari, D., et al. Journal of Non-Crystalline Solids [J]. 2014.
    [8] Dong Bangsha(董帮少),Zhou Shaoxiong(周少雄), Zhi qizheng(支起铮) et al. Electric Power(中国电力) [J]. 2021: 1-12.
    [9] Pan Yun(潘贇),Liu Tiancheng(刘天成),Chen Feifei(陈非非) et al. Transactions of Materials and Heat Treatment(材料热处理学报) [J]. 2020, 41(3): 89-95.
    [10] Yoshizawa Y, Yamauchi K. IEEE Transactions on Magnetics [J]. 1989, 25(5): 3324-3326.
    [11] Fujii H, Yardley V A, Matsuzaki T, et al. Journal of Materials Science [J]. 2008.
    [12] Yoshizawa Y, Yamauchi K. Mater. Trans. JIM [J]. 1990, 31(4): 307-314.
    [13] Madugundo R, Geoffroy O, Waeckerle T, et al. Journal of Magnetism and Magnetic Materials [J]. 2017, 422(jan.): 475-478.
    [14] Zhang Lin(张林). NanChang University(南昌大学) [D], 2013.
    [15] Va Zquez M, Marin P, Davies H A, et al. Applied Physics Letters [J]. 1994, 64(23): 3184-3186.
    [16] Hono K, Ping D H, Ohnuma M, et al. Acta Materialia[J]. 1999(3): 997-1006.
    [17] Jones J D A A. Acta Materialia[J]. 1998.
    [18] Herzer G. Acta Materialia[J]. 2013, 61(3): 718-734.
    [19] Willard M A. Handbook of Magnetic Materials[J]. 2013, 21: 173-342.
    [20] Allia P, Tiberto P, Baricco M, et al. Review of Scientific Instruments[J]. 1993, 64(4): 1053-1060.
    [21] P. Allia, M., et al. Physical Review B[J]. 1993.
    [22] Jagielinski, T. IEEE Transactions on Magnetics[J]. 1983, 19(5): 1925-1927.
    [23] Allia P, Baricco M, Knobel M, et al. Philosophical Magazine Part B[J]. 1993, 68(6): 853-860.
    [24] Qiu Shengbao(邱胜宝),Zhang Chengyu(张程煜),Yao Kefu(姚可夫). Acta Metallurgica Sinica(金属学报) [J]. 2007, 43(1): 5.
    [25] Allia P, Tiberto P, Baricco M, et al. Applied Physics Letters[J]. 1993, 63(20): 2759-2761.
    [26] Allia P, Barricco M, Knobel M, et al. Journal of Magnetism and Magnetic Materials[J]. 1994, 133(1): 243-247.
    [27] Moya J, Cremaschi V, Silva F, et al. Journal of Magnetism and Magnetic Materials[J]. 2001, 226(part-P2): 1522-1523.
    [28] Hison C L, Chiri Ac H, Lupu N, et al. Sensors Actuators A Physical[J]. 2006, 129(1-2): 45-49.
    [29] Zhang Guozhong(张国忠),Li Yanhui(李艳辉),Wu Licheng(吴立成) et al. Materials reports(材料导报) [J]. 2020, 034(003): 165-171.
    [30] Shi Ruimin(史瑞民). Heat Treatment Technology and Equipment(热处理技术与装备) [J]. 2021, 42(03): 58-61.
    [31] Lovas A, Kiss L F, Varga B, et al. Le Journal de Physique IV[J]. 1998, 08(PR2): r2-r291.
    [32] Tsurekawa S, Fujii H, Yardley V A, et al. Recrystallization and Grain Growth III pt.2 [C]. 2007.
    [33] Li Mingrui(李明瑞),Cheng Hao(程皓),Li Weihuo(李维火). . Journal of Function Materials(功能材料) [J]. 2020, 51(02): 2188-2192.
    [34] Zhou Guohua(周国华),Ouyang Yougen(欧阳有根),Wu Jinfang(吴进方) et al. Hot Working Technology(热加工工艺) [J]. 2016, 45(24): 104-106.
    [35] Lachowicz H K, Neuweiler A, Popkawski F, et al. Journal of Magnetism and Magnetic Materials[J]. 1997, 173(3): 287-294.
    [36] Kraus L, Závěta K, Heczko O, et al. Journal of Magnetism and Magnetic Materials[J]. 1992, 112(1-3): 275-277.
    [37] Yanai T, Shimada A, Takahashi K, et al. IEEE Transactions on Magnetics[J]. 2006, 42(10): 2781-2783.
    [38] Miguel C, Zhukov A P, González J. physica status solidi (a) [J]. 2002, 194.
    [39] Miguel C, Murillo N, González J. Journal of Applied Physics[J]. 2000, 88(11): 6623-6627.
    [40] Gonzalez J, Murillo N, Blanco J M, et al. Journal of Applied Physics[J]. 1994, 76(2): 1131-1134.
    [41] Herzer G, Budinsky V, Polak C. physica status solidi (b) [J]. 2011, 248(10): 2382-2388.
    [42] Pan Yun(潘贇),Liu Tiancheng(刘天成),Li Guangmin(李广敏) et al. Chinese Journal of Materials Research(材料研究学报) [J]. 2020, 34(10): 753-760.
    [43] Hofmann B, Kronmüller H. Journal of Magnetism and Magnetic Materials[J]. 1996, 152(1): 91-98.
    [44] Herzer G. IEEE Transactions on Magnetics[J]. 1994, 30(6): 4800-4802.
    [45] Alves, Desmoulins, Jb, et al. Journal of Magnetism and Magnetic Materials[J]. 2000, 2000,215(-): 387-390.
    [46] Ohnuma M, Hono K, Yanai T, et al. Applied Physics Letters[J]. 2003, 83(14): 2859-2861.
    [47] Yanai T, Ohya T, Takahashi K I, et al. Journal of Magnetism and Magnetic Materials[J]. 2005, 290(part-P2): 1502-1505.
    [48] Fukunaga H, Tanaka H, Yanai T, et al. Journal of Magnetism and Magnetic Materials[J]. 2002, 242(part-P1): 279-281.
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[Xing Yanxing, Zhou Shaoxiong, Dong Bangshao, Wang Jian. Research progress on annealing process of Finemet-type nanocrystalline alloys[J]. Rare Metal Materials and Engineering,2023,52(4):1520~1529.]
DOI:10.12442/j. issn.1002-185X.20220285

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History
  • Received:April 07,2022
  • Revised:May 17,2022
  • Adopted:June 17,2022
  • Online: May 01,2023
  • Published: April 25,2023

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