基于时间反转理论,对主动Lamb波复合材料结构脱层损伤成像监测技术进行了研究.分析了时间反转方法的理论基础以及对波源的信号聚焦过程.根据信号传播自身的特性,研究采用时间反转聚焦方法使损伤散射信号能量叠加放大,从而提高信号的信噪比,分析给出了具体的损伤信号时间反转聚焦增强过程;利用时间反转法对波源的自适应聚焦能力,重建信号传播波动图,通过信号聚焦显示损伤位置和区域.在玻璃纤维复合材料板上的真实损伤实验结果表明,该方法能有效提高损伤散射信号的能量,较为准确地监测出损伤的位置、大致范围等特征.
参考文献
| [1] | 杜善义,关志东.我国大型客机先进复合材料技术应对策略思考[J].复合材料学报,2008,25(1):1-10.Du Shanyi,Guan Zhidong.Strategic considerations for development of advanced composite technology for large commercial aircraft in China[J].Acta Materiae Compositae Sinica,2008,25(1):1-10. |
| [2] | Boiler C.Next generation structural health monitoring and its integration into aircraft design[J].International Journal of Systems Science,2000,31(11).1333-1349. |
| [3] | Yuan Shenfang,Wang Lei,Shi Lihua.On-line damage monitoring in composite structures[J],Journal of Vibration and Acoustics,2003,125:178-186. |
| [4] | 张彦,朱平,来新民.等.低速冲击作用下碳纤维复合材料铺层板的损伤分析[J].复合材料学报,2006,23(2);150-157.Zhang Yan,Zhu Ping,Lai Xinmin,et al.Low velocity impact damage analysis in carbon fiber reinforced composite laminated plates[J].Acta Materiae Compositae Sinica,2006,23(2):150-157. |
| [5] | 彭鸽,袁慎芳.主动Lamb波监测技术中的传感元件优化布置研究[J].航空学报,2006,27(5):957-962.Peng Ge,Yuan Shenfang.Optimization for collocation of sensors in active lamb wave-based monitoring[J].Acta Aeronoutica et Astronautica Sinica,2006,27(5):957-962. |
| [6] | 彭鸽,袁慎芳.基于主动监测技术的结构冲击损伤BP神经网络识别[J].仪器仪表学报.2005,26(6):574-577.Peng Ge,Yuan Shenfang.BP neural network recognition of the impact damage in structures based on active monitoring method[J].Chinese Journal of Scientific Instrument,2005,26(6):574-577. |
| [7] | 徐颖娣,袁慎芳,彭鸽.二维结构损伤的主动Lamb波定位技术研究[J].航空学报,2004,25(5):476-479.Xu Yindi,Yuan Shenfang,Peng Ge.Study on twodimensional damage location in structure based on active Lamb wave detection technique[J].Acta Aeronoutica et Atronautica Sinica,2004,25(5):476-479. |
| [8] | Lin X,Yuan F G.Detection of multiple damages by prestack reverse-time migration[J].AIAA Journal,2001,39:2206-2215. |
| [9] | Wang Lei,Yuan F G.Damage identification in a composite plate using prestack reverse-time migration technique[J].Structural Health Monitoring,2005,4(3),195-211. |
| [10] | Fink M.Time reversal of ultrasonic fields,Part Ⅰ,Basic principles[J].IEEE Transactions on Ultrasonics,Ferroelectrics,and Frequency Control,1992,39(5):555-565. |
| [11] | Wu F,Thomas J L,Fink M.Time reversal of ultrasonic fields,Part Ⅱ,Experimental Results[J].IEEE Transactions on Ultrasonics,Ferroelectrics,and Frequency Control,1992,39(5):567-578. |
| [12] | Ing R K,Fink M.Time reversed Lamb waves[J].IEEE Transactions on Ultrasonics,Ferroelectrics,and Frequency Control,1998,45(4):1032-1043. |
| [13] | Xu Buli,Giurgiutiu V.Single mode tuning effects on Lamb wave time reversal with piezoelectric wafer active sensors for structural health monitoring[J].Journal of Nondestructive Evaluation,2007,26:123-134. |
| [14] | Park Hyun-Woo,Sohn Hoon,Law K H,et al.Time reversal active sensing for health monitoring of a composite plate[J].Journal of Sound and Vibration,2007,302:50-66. |
| [15] | Wang C H,Rose J T,Chang Fu-Kuo.A synthetic timereversal imaging method for structural health monitoring[J].Smart Material and Structure,2004,13:415-423. |
| [16] | 生雪莉,惠俊英,梁国龙.时间反转镜用于被动检测技术的研究[J].应用声学,2005,24(6):351-358.Sheng Xueli,Hui Junying,Liang Guolong.Study on passive detecting technology based on an acoustic time-reversal mirror[J].Applied Acoustics,2005,24(6):351-358. |
| [17] | 陶宝棋.智能材料结构[M].北京:国防工业出版社,1997:275-281. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%