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多孔SiC陶瓷/Zr基非晶合金复合材料动态压缩性能研究
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1.北京理工大学 材料学院;2.烟台大学 环境与材料工程学院


The research on the Dynamic Compressive Properties of Porous SiC Ceramic/ Zr-Base Amorphous Composites
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School of Material Science and Engineering,Beijing Institute of Technology

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    摘要:

    通过压力-浸渗法制备多孔SiC陶瓷/Zr基非晶合金复合材料。利用分离式霍普金森压杆装置(SHPB)、S-4800场发射扫描电镜等测试分析手段,探究复合材料制备保温时间和多孔碳化硅性能对多孔SiC陶瓷/Zr基非晶合金复合材料动态压缩性能的影响,并揭示了其变形机制。结果表明:保温时间和多孔碳化硅性能对多孔SiC陶瓷/Zr基非晶合金复合材料的动态抗压强度都有较大影响,当多孔碳化硅孔隙率为23.77%,平均孔径尺寸为26.72um时,在复合材料制备浸渗温度为860℃,浸渗后保温6.0 min时,复合材料具有最高的动态抗压强度,为1757 MPa。多孔SiC陶瓷/Zr基非晶合金复合材料动态压缩断裂为脆性断裂,断口微观形貌特征包括SiC陶瓷相上形成具有不同特征的解理台阶,Zr基非晶合金相形成不同形态的脉状花样,非晶相保持相对完整。Zr基非晶合金相能有效阻碍裂纹的扩展,导致非晶相周围的碳化硅碎裂并挤压非晶相整体运动,从而提高了多孔SiC陶瓷/Zr基非晶合金复合材料动态抗压强度。

    Abstract:

    The porous SiC ceramics / Zr-based amorphous alloy composites were prepared by the pressure - infiltration casting method. The influence of pressure - infiltration casting holding time and the properities of porous SiC ceramics on the dynamic compression performance were investigated with the split Hopkinson pressure bar (SHPB) and the S-4800 scanning electronic microscope (SEM). The results showed that The dynamic compressive strength of porous SiC ceramic /Zr based amorphous alloy composites was significantly affected by the holding time and the properties of porous SiC ceramic. The composited exhibited the highest dynamic compressive strength which was1757MPa with the porosity and Average aperture size were 23.77 and 26.72um, respectively, under the condition of the pressure - infiltration casting temperature and time were 860℃ and 6.0min, respectively. The fracture mode of the composite shows the brittle fracture under the dynamic compress load. The fracture morphology characteristics included the cleavage steps appear in ceramic with different characteristics and Different patterns of veins in Zr-base amorphous alloy kept in relatively intact. The Zr-based amorphous alloy can effectively hinder cracks expansion with the surrounding silicon carbide broke up and movement with amorphous alloys, which would improve the dynamic compressive strength of porous SiC ceramic / Zr-based amorphous composites.

    参考文献
    [1] Huang Jinsong(黄劲松), Liu Yong(刘 咏), Chen Shiqi(陈仕奇)et al. The Chinese Journal of Nonferrous Metals(中国有色金属学报)[J], 2003, 13(6): 1321-1331
    [2] Wang W H, Dong C, Shek C H. Materials Science and Engineering: R: Reports [J], 2004, 44(2-3): 45-89
    [3] Trexler M M, Thadhani N N. Progress in Materials Science [J], 2010, 55(8):759-839.
    [4] Shen Yonghua(沈永华), Cheng Huanwu(程焕武), Xue Yunfei(薛云飞) et al. Rare Metal Materials and Engineering [J], 2016(1):92-96.
    [5] Zhang H F, Wang A M, Li H, et al. Journal of Materials Research [J], 2006, 21(06):1351-1354.
    [6] Du Chenxin(杜成鑫), Du Zhonghua(杜忠华), Gao Guangfa (高光发) et al. Materials Review [J], 2018, 32(13):2252-2266
    [7] Chu Zhenhua(褚振华), Yuan Guangyin(袁广银), Kato Hidemi(加藤秀实) et al. Rare Metal Materials and Engineering [J], 2013, 42(6):1154~1158
    [8] Clarke D R. Journal of the American Ceramic Society [J], 1992, 75(4): 739-758.
    [9] Wegner L D, Gibson L J. International Journal of Mechanical Sciences [J], 2000, 42(5): 925-942
    [10] Strassburger E, Lexow B, Beffort O, et al. Le Journal de Physique IV [J], 2000, 10(PR9): Pr9-605-Pr9-610
    [11] Li G J, Zhang X, Fan Q B, et al. Acta Materialia [J], 2014, 78: 190-202
    [12] Forquin P, Tran L, Louvigné P F, et al. International journal of impact engineering [J], 2003, 28(10): 1061-1076
    [13] Sun Y, Zhang H F, Wang A M, et al. Journal of materials research [J], 2010, 25(11): 2192-2196
    [14] Xue Y F, Wang L, Cheng H W, et al. Materials Science and Engineering: A [J], 2010, 527(21-22): 5909-5914
    [15] Chen Y L, Wang A M, Fu H M, et al. Materials Science and Engineering: A [J], 2011, 530: 15-20
    [16] Wang B P, Wang L, Xue Y F, et al. Materials Science and Engineering: A [J], 2014, 609: 53-59
    [17] Liu Na(刘娜), Cai Hongnian(才鸿年), Wang Lu(王鲁) et al. Transactions of Beijing Institute of Technology [J], 2007, 27(1):77-81
    [18] Cheng H W(程焕武), Wang L(王鲁) , MA L L(马丽莉) et al. Transactions of Beijing Institute of Technology [J], 2009: 29(10): 906
    [19] Meyers M A, Chawla K K. Mechanical behavior of materials [M]. Cambridge university press, 2008
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沈永华,张玉平,程焕武,王扬卫,王迎春,李硕.多孔SiC陶瓷/Zr基非晶合金复合材料动态压缩性能研究[J].稀有金属材料与工程,2020,49(2):737~743.[SHEN Yonghua, Zhang Yuping, CHENG Huanwu, WANG Yangwei, WANG Yingchun, and LI Shuo. The research on the Dynamic Compressive Properties of Porous SiC Ceramic/ Zr-Base Amorphous Composites[J]. Rare Metal Materials and Engineering,2020,49(2):737~743.]
DOI:10.12442/j. issn.1002-185X. QH20190021

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  • 收稿日期:2019-03-12
  • 最后修改日期:2019-12-10
  • 录用日期:2019-10-23
  • 在线发布日期: 2020-03-12