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Home > Archive>Volume 50, Issue 3, 2021 >1096-1106. DOI:10.12442/j.issn.1002-185X.20200330
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Research Progress in Preparing Amorphous Alloys by Spark Plasma Sintering
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State Key Laboratory of Material Processing and Die Mould Technology,Huazhong University of Science and Technology

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    Abstract:

    Amorphous alloys possess excellent mechanical properties, corrosion resistance, and magnetic properties, and are a new structural and functional material with significant application potential. However, the preparation of amorphous alloys via traditional methods is restricted by the critical cooling rate, and the forming size is also limited; these factors restrict the application of amorphous alloys. However, the preparation of amorphous alloys via spark plasma sintering (SPS) is not limited by the critical cooling rate, and SPS can therefore produce larger amorphous alloys. This paper summarizes the research progress of the preparation of amorphous alloys via SPS from the aspects of the densification mechanism, process parameters, comparative study of properties, and numerical simulation, and analyzes its difficulties and future development directions.

    Reference
    [1] W K, H W R, P D. Nature[J], 1960, 187(4740):869.
    [2] Wang Liqiang(王立强),Zhai Shenqiu(翟慎秋),Ding Rui(丁锐) et al. Foundry Technology(铸造技术)[J], 2017,38(02):274-279.
    [3] Yan Xiangquan(闫相全),Song Xiaoyan(宋晓艳),Zhang Jiuxing(张久兴). Rare Metal Materials and Engineering(稀有金属材料与工程)[J], 2008, (05):931-935.
    [4] Wang Lijun(王立军),Zhang Guangqiang(张广强),Li Shanhong(李山红) et al. Metallic Functional Materials(金属功能材料)[J], 2010, 17(05):58-62.
    [5] Wang Ge(王 葛),Li Qiang(李 强),Song Xueping(宋学平) et al. Rare Metal Materials and Engineering(稀有金属材料与工程)[J], 2008, 37(S4):712-715.
    [6] Ding Huaping(丁华平),Gong Pan(龚 攀),Yao Kefu(姚可夫) et al. Materials Reports(材料导报)[J], 2020, 34(03):139-147.
    [7] Li Yuanyuan(李元元),Yang Chao(杨 超),Li Xiaoqiang(李小强) et al. The Chinese Journal of Nonferrous Metals(中国有色金属学报)[J], 2011, 21(10):2305-2323.
    [8] Xie G, Louzguine-Luzgin D V, Kimura H et al. Appl. Phys. Lett.(Applied Physics Letters)[J], 2007, 90(24):241902.
    [9] Harimkar S P, Borkar T, Singh A. Materials Science and Engineering: A(Materials Science and Engineering: A)[J], 2011, 528(3):1901-1905.
    [10] Han Cuiliu(韩翠柳),Shen Xuefeng(沈学峰),Wang Yan(王衍) et al. Aeronautical Manufacturing Technology(航空制造技术)[J], 2019, 62(22):43-51.
    [11] Meng Ye(孟 晔),Qiang Wenjiang(强文江),Jia Chengchang(贾成厂). Powder Metallurgy Technology(粉末冶金技术)[J], 2014, 32(04):296-305.
    [12] K O, Kobayasi K, Sugiyama A. Journal of the Japan Society of Powder Powder Metallurgy[J], 1997, 44(12):1126-1130.
    [13] Shen B, Inoue A. Journal of Materials Research[J], 2003, 18(9):2115-2121.
    [14] Xie G, Zhang W, Louzguine-Luzgin D V et al. Scripta Materialia[J], 2006, 55(8) :687-690.
    [15] Kim C K, Lee H S, Shin S Y et al. Materials Science amp; Engineering A[J], 2005, 406(1) :293-299.
    [16] Lee J K, Kim H J, Kim T S. Journal of Metastable and Nanocrystalline Materials[J], 2005, 538:105-108.
    [17] Scudino S, Surreddi K B, Nguyen H V. Journal of Materials Research[J], 2009, 24(9):2909-2916.
    [18] Chang Z, Wang W, Ge Y et al. Journal of Alloys and Compounds[J], 780:220-227.
    [19] Prasanna M L, Majumdar B, Niranjani V L et al. Transactions of the Indian Institute of Metals[J], 2015, 68(6):1033-1037.
    [20] Lee M H, Lee J K, Kim K B et al. Intermetallics[J], 2010, 18(10):2009-2013.
    [21] Inoue A. Acta Materialia[J], 2000, 48(1) :279-306.
    [22] He G, Chen Q. Journal of Alloys and Compounds[J], 2019, 797:213-221.
    [23] Liu L H, Yang C, Yao Y G et al. Intermetallics[J], 2015, 66:1-7.
    [24] Saheb N, Iqbal Z, Khalil A et al. Journal of Nanomaterials[J], 2012, 2012:1-13.
    [25] Chen Q, Tang C Y, Chan K C et al. Journal of Alloys and Compounds[J], 2013, 557:98-101.
    [26] Jia Jianbo(贾建波),Yang Yue(杨 越),Sun Wei(孙 威) et al. The Chinese Journal of Nonferrous Metals(中国有色金属学报)[J], 2019, 29(07):1399-1407.
    [27] Lu H Z, Yang C, Li X X et al. Journal of Alloys and Compounds[J], 2020:823.
    [28] Yan Jianhui(颜建辉),Li Kailing(李凯玲),Wang Yi(汪 异) et al. Materials Reports(材料导报)[J], 2019, 33(10):1671-1675.
    [29] Cardinal S, Pelletier J M, Qiao J C et al. Materials Science amp; Engineering A[J], 2016, 677:116-124.
    [30] Tan Z, Wang L, Xue Y et al. Materials Science and Engineering: A[J], 2015, 642:377-380.
    [31] Wang Ge(王 葛),Wang Xinghua(王兴华),Wang Haijian(王海舰) et al. Journal of Yanshan University(燕山大学学报)[J], 2014, 38(06):491-496.
    [32] Chu Z H, Kato H, Xie G Q et al. Journal of Non-Crystalline Solids[J], 2012, 358(10):1263-1267.
    [33] Harimkar S P, Paital S R, Singh A et al. Journal of Non-Crystalline Solids[J], 2009, 355(43-44):2179-2182.
    [34] Li Shaolong(李少龙),Guo Wei(郭 薇),Luo Shaobo(罗少波) et al. Journal of Changchun University of Techno logy ( Natural Science Edition)(长春工业大学学报(自然科学版))[J], 2010, 31(03):255-259.
    [35] Paul T, Chawake N, Kottada R S et al. Journal of Alloys and Compounds[J], 2018, 738:10-15.
    [36] Li X P, Yan M, Schaffer G B et al. Intermetallics[J], 2013, 39:69-73.
    [37] Li X P, Yan M, Ji G. Journal of Nanomaterials[J], 2013, 2013:6.
    [38] Maurya R S, Sahu A, Laha T. Materials Science amp; Engineering A[J], 2016, 649:48-56.
    [39] Zhu Yuying(朱玉英). Thesis for Master(博士论文)[D].Qinhuangdao:Yanshan University,2015.
    [40] Liu L H, Yang C, Yao Y G et al. Intermetallics[J], 2015, 66:1-7.
    [41] Paul T, Harimkar S P. Journal of Physics D:Applied Physics[J], 2017, 50(27).
    [42] Li X P, Yan M, Imai H et al. Journal of Non-Crystalline Solids[J], 2013, 375:95-98.
    [43] Nowak S, Perrière L, Dembinski L et al. Journal of Alloys and Compounds[J], 2011, 509(3):1011-1019.
    [44] Zheng B, Ashford D, Zhou Y et al. Acta Materialia[J], 2013, 61(12):4414-4428.
    [45] Zhang Lei(张 雷),Guo Hong(郭 红). Science Technology and Engineering(科学技术与工程)[J], 2010, 10(30):7519-7523.
    [46] Feng Y T, Wang X H, Wang G et al. Taylor Francis[J], 2016, 505(1):190-199.
    [47] Lee J K, Kim H J, Kim T S et al. Journal of Materials Processing Technology[J], 2007, 187-188:801-804.
    [48] Wang D J, Huang Y J, Wu L Z et al. Materials Science Engineering A[J], 2013, 560:841-846.
    [49] Ge W, Wang Y, Shang C et al. Journal of Materials Science[J], 2017, 52(10):5726-5737.
    [50] Feng-Xiang Q, Chuan J Zhen-hua D et al. Acta Metallurgica Sinica:English Letters [J], 2016, 29(9):793-799.
    [51] Chen Xiao''an(陈小安),Shang Fujun(尚福军),Song Shuncheng(宋顺成). Powder Metallurgy Technology(粉末冶金技术)[J], 2010, 28(04):256-261.
    [52] Guo Shibo(郭世柏),Xiao Yong(肖勇),Zheng Zhoushun(郑洲顺) et al. Hot Working Technology(热加工工艺)[J], 2013, 42(08):31-34.
    [53] Trzaska Z, Collard C, Durand L et al. Journal of the American Ceramic Society[J], 2019, 102(08) :654-661.
    [54] Liu Xuemei(刘雪梅),Song Xiaoyan(宋晓艳),Zhang Jiuxing(张久兴). Acta Metallurgica Sinica(金属学报)[J], 2006, (07):757-762.
    [55] Wang C, Cheng L, Zhao Z.Computational Materials Science [J], 2010, 49(2):351-362.
    [56] Song Y, Li Y, Zhou Z. Journal of Materials Science[J], 2011, 46(17):5645-5656.
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[Zhuang Chengkang, Ding Huaping, Ma Yunfei, Liu Hui, Gong Pan, Wang Xinyun. Research Progress in Preparing Amorphous Alloys by Spark Plasma Sintering[J]. Rare Metal Materials and Engineering,2021,50(3):1096~1106.]
DOI:10.12442/j. issn.1002-185X.20200330

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History
  • Received:May 16,2020
  • Revised:June 28,2020
  • Adopted:July 01,2020
  • Online: April 02,2021

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