短切碳纤维C/SiC陶瓷基复合材料的动态劈裂拉伸实验

徐颖 邵彬彬 许维伟 杨建明

徐颖, 邵彬彬, 许维伟, 杨建明. 短切碳纤维C/SiC陶瓷基复合材料的动态劈裂拉伸实验[J]. 爆炸与冲击, 2017, 37(2): 315-322. doi: 10.11883/1001-1455(2017)02-0315-08
引用本文: 徐颖, 邵彬彬, 许维伟, 杨建明. 短切碳纤维C/SiC陶瓷基复合材料的动态劈裂拉伸实验[J]. 爆炸与冲击, 2017, 37(2): 315-322. doi: 10.11883/1001-1455(2017)02-0315-08
Xu Ying, Shao Binbin, Xu Weiwei, Yang Jianming. Dynamic splitting tensile test of short carbon fiber C/SiC ceramic matrix composites[J]. Explosion And Shock Waves, 2017, 37(2): 315-322. doi: 10.11883/1001-1455(2017)02-0315-08
Citation: Xu Ying, Shao Binbin, Xu Weiwei, Yang Jianming. Dynamic splitting tensile test of short carbon fiber C/SiC ceramic matrix composites[J]. Explosion And Shock Waves, 2017, 37(2): 315-322. doi: 10.11883/1001-1455(2017)02-0315-08

短切碳纤维C/SiC陶瓷基复合材料的动态劈裂拉伸实验

doi: 10.11883/1001-1455(2017)02-0315-08
基金项目: 

国家自然科学基金项目 51374012

高等学校博士学科点专项科研基金项目 20123415110001

详细信息
    作者简介:

    徐颖(1965—), 男, 博士, 教授, 博士生导师

    通讯作者:

    邵彬彬, shao_aust@163.com

  • 中图分类号: O347.3

Dynamic splitting tensile test of short carbon fiber C/SiC ceramic matrix composites

  • 摘要: 为了探究C/SiC陶瓷基复合材料的动态断裂力学行为和破坏形态,利用分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)装置对3种不同短切碳纤维体积分数的C/SiC陶瓷基复合材料进行了动态劈裂实验,并利用扫描电子显微镜扫描了C/SiC复合材料试件的破坏界面,分析了C/SiC陶瓷基复合材料的失效特征和增韧机理。实验结果表明:C/SiC复合材料在冲击劈裂实验过程中,同一短切碳纤维体积分数下试件的动态抗拉强度随着冲击气压的增大而增大; 短切碳纤维体积分数为16.0%时, 材料的抗拉强度最低; 冲击后,试件的整体破坏情况与冲击气压、短切碳纤维体积分数有关。
  • 图  1  巴西圆盘对径压缩

    Figure  1.  Diametrical compression on the Brazilian disc

    图  2  动态劈裂实验试件安装方式

    Figure  2.  Specimen installation mode in dynamic splitting tests

    图  3  SHPB劈裂拉伸实验应力波形

    Figure  3.  Stress waves in SHPB tensile test

    图  4  试件的动态应力平衡检验

    Figure  4.  Dynamic stress equilibrium test of specimen

    图  5  短切碳纤维体积分数为24.8%的C/SiC复合材料试件动态劈裂破碎形态

    Figure  5.  Dynamic Splitting crushing forms of C/SiC composite specimens with the short cut carbon fiber volume fraction of 24.8%

    图  6  不同短切碳纤维体积分数下典型应力时程曲线

    Figure  6.  Typical stress-time curves at different short cut carbon fiber volume fractions

    图  7  动态拉伸强度与冲击气压的关系

    Figure  7.  Dynamic tensile strength varying with impact pressure

    图  8  不同气压强度下典型应力时程曲线

    Figure  8.  Typical stress-time curves at different impact pressures

    图  9  动态拉伸强度与短切碳纤维体积分数的关系

    Figure  9.  Dynamic tensile strength varying with short cut carbon fiber volume fraction

    图  10  短切碳纤维体积分数为16.0%的C/SiC复合材料断口形貌

    Figure  10.  Fracture surface of C/SiC composites with the short cut carbon fiber volume content of 16.0%

    图  11  短切碳纤维体积分数为21.0%的C/SiC复合材料断口形貌

    Figure  11.  Fracture surface of C/SiC composites with the short cut carbon fiber volume content of 21.0%

    图  12  短切碳纤维体积分数为24.8%的C/SiC复合材料断口形貌

    Figure  12.  Fracture surface of C/SiC composites with the short cut carbon fiber volume content of 24.8%

    图  13  不同冲击气压下, 短切碳纤维体积分数为24.8%的C/SiC复合材料断口形貌

    Figure  13.  Fracture surface of C/SiC composites with the short cut carbon fiber volume content of 24.8% at different impact pressures

    图  14  面积比与拉伸强度的关系

    Figure  14.  Area ratio and dynamic tensile strength

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出版历程
  • 收稿日期:  2015-09-30
  • 修回日期:  2016-03-07
  • 刊出日期:  2017-03-25

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