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复合材料学报 2014

基于数值计算方法的CFRP层板二维细观形貌多孔隙超声散射衰减

, PP. 692-698

丁珊珊,罗忠兵,陈军,刘欢,林莉

Keywords: CFRP,孔隙,真实形貌,数值模拟,超声散射衰减

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Abstract:

针对超声波在含有多孔隙的复合材料中传播时，邻近孔隙超声散射波之间相互作用和散射衰减机制尚未澄清的问题，对孔隙率为7.47%的碳纤维增强复合材料（CarbonFiberReinforcedPlastic，CFRP）采用时域有限差分方法进行数值计算，对比研究了CFRP层板中不同尺寸范围二维真实形貌孔隙及圆形孔隙对应的超声散射衰减系数。结果表明，对于横向尺寸m≤λ/8、λ/8s普遍小于真实形貌孔隙的αs。对于孔隙横向尺寸满足m<2λ/3的情况，大尺寸孔隙以及长条形孔隙的存在，整体上会使超声波散射衰减加重。

References

[1]	陈祥宝, 张宝艳, 刑丽英. 先进树脂基复合材料技术发展及应用现状 [J]. 中国材料进展, 2009, 28(6): 2-12. Chen Xiangbao, Zhang Baoyan, Xing Liying. Application and development of advanced polymer matrix composites [J]. Materials China, 2009, 28(6): 2-12.
[2]	Stone D E W, Clarke B. Ultrasonic attenuation as a measure of void content in carbon-fiber reinforced plastics [J]. Non-Destructive Testing, 1975, 8(3): 137-145.
[3]	Hale J M, Ashton J N. Ultrasonic attenuation in voided fibre-reinforced plastics [J].Non-Destructive Testing International, 1988, 21(5): 321-326.
[4]	周晓军, 游红武, 程耀东. 含孔隙碳纤维复合材料的超声衰减模型 [J]. 复合材料学报, 1997, 14(3): 99-106. Zhou Xiaojun, You Hongwu, Cheng Yaodong. Ultrasonic attenuation model of void contained carbon fibre reinforced plastics [J]. Acta Materiae Compositae Sinica, 1997, 14(3): 99-106.
[5]	Martin B G. Ultrasonic attenuation due to voids in fibre-reinforced plastics [J]. Non-Destructive Testing International, 1976, 9(5): 242-246.
[6]	Martin B G. Ultrasonic wave propagation in fiber-reinforced solids containing voids [J]. Journal of Applied Physics, 1977, 48(8): 3368-3373.
[7]	Jeong H, Hsu D K. Experimental analysis of porosity-induced ultrasonic attenuation and velocity change in carbon composites [J]. Ultrasonics, 1995, 33(3): 195-203.
[8]	Huang H, Talreja R. Effects of void geometry on elastic properties of unidirectional fiber reinforced composites [J]. Composites Science and Technology, 2005, 65(13): 1964-1981.
[9]	McMillan A J. Material strength knock-down resulting from multiple randomly positioned voids [J]. Journal of Reinforced Plastics & Composites, 2012, 31(1): 13-28.
[10]	Lin L, Zhang X, Chen J, et al. Numerical investigations of ultrasonic scattering from voids in composite materials based on random void model [J]. Advanced Materials Research, 2012, 346: 639-643.
[11]	牟云飞, 张翔, 林莉, 等. 基于随机孔隙模型的CFRP孔隙率超声检测研究 [J]. 机械工程学报, 2010, 46(4): 22-26. Mu Yunfei, Zhang Xiang, Lin Li, et al. Investigations on CFRP porosity by using ultrasonic testing based on random pores model [J]. Journal of Mechanical Engineering, 2010, 46(4): 22-26.
[12]	Lin L, Zhang X, Chen J, et al. A novel random void model and its application in predicting void content of composites based on ultrasonic attenuation coefficient [J]. Applied Physics A, 2011, 103(4): 1153-1157.
[13]	Lin L, Chen J, Zhang X, et al. A novel 2-D random void model and its application in ultrasonically determined void content for composite materials [J]. Non-Destructive Testing International, 2011, 44(3): 254-260.
[14]	张翔, 陈军, 林莉, 等. 复合材料孔隙形貌特征对超声波散射衰减影响的分析 [J]. 中国机械工程, 2010, 21(14): 1735-1741. Zhang Xiang, Chen Jun, Lin Li, et al. Effects on ultrasonic scattering attenuation coefficient of morphological characteristics of voids in composite materials [J]. China Mechanical Engineering, 2010, 21(14): 1735-1741.
[15]	Hale J M, Ashton J N. Ultrasonic attenuation in voided fibre-reinforced plastics [J]. Non-Destructive Testing International, 1988, 21(5): 321-326.
[16]	Ikelle L T, Yung S K, Daube F. 2-D random media with ellipsoidal autocorrelation functions [J]. Geophysics, 1993, 58(9): 1359-1372.
[17]	田宏涛. 碳纤维复合材料孔隙几何形貌定量分析与研究 [D]. 大连: 大连理工大学, 2010. Tian Hongtao. Quantitative analysis and investigation on geometrical morphology of pore in CFRP [D]. Dalian: Dalian University of Technology, 2010.
[18]	张翔. 复合材料二维随机孔隙模型优化及孔隙形貌对声学参数影响分析 [D]. 大连: 大连理工大学, 2011. Zhang Xiang. Optimization of 2-D random void model for composite materials and analysis of effect of void morphology on acoustical parameters [D]. Dalian: Dalian University of Technology, 2011.

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