Hypervelocity impact monitoring and location identification on aluminum plate based on FBG sensing system
LI Wei, JIANG Ming-shun, Lü Shan-shan, SU Chen-hui, LUO Yu-xiang, SHEN Jing-shi, JIA Lei. Hypervelocity impact monitoring and location identification on aluminum plate based on FBG sensing system[J]. 光电子快报(英文版), 2020, 16(4): 306.
[1] A. Stabile, G. S. Aglietti, G. Richardson and Smet G., Smart Material Structures 26, 045031 (2017).
[2] A. Stabile, G. S. Aglietti, G. Richardson and Smet G., Journal of Sound Vibration 386, 38 (2017).
[3] Y. Luo, Y. Q. Zhang, Z. Xu, X. Gao, K. Jia, M. Xu and L. Ye, International Journal of Computational Materials Science & Engineering 7, 1850013 (2018).
[4] M. H. Cui, F. S. Wu, H. W. Li and Han J. W., Acta Physica Sinica 63, 457 (2014). (in Chinese)
[5] Z. Y. Han and B. J. Pang, Spacecraft Environment Engineering 29, 369 (2012).
[6] D. S. Jiang, S. G. Zheng, N. Ma, Y. Liu and Y. Qiu, Spacecraft Engineering 26, 114 (2017).
[7] Q. Tang, Characteristics of Plate Waves Induced by Hypervelocity Impact and Onboard Monitoring Technique for Detection of Impact on Spacecraft by Space Debris, Harbin Institute of Technology, 51 (2008). (in Chinese)
[8] W. G. Liu, J. M. Wang and H. B. Gu, Nondestructive Testing 34, 41 (2012).
[9] Z. D. Liu, K. Chen, B. J. Pang and Y. Liu, Nondestructive Testing 36, 36 (2014). (in Chinese)
[10] Z. Yin, X. Y. Hou, J. H. Guo, Y. Liu and P. Hao, Acta Acustica 42, 281 (2017). (in Chinese)
[11] B. J. Pang, K. Zhang, M. Lin and Y. Liu, Chinese Journal of High Pressure Physics 28, 664 (2014).
[12] S. Yaozhang, J. Mingshun, S. Qingmei, L. Shizeng and J. Lei, Chinese Journal of Lasers 41, 139 (2014). (in Chinese)
[13] W. G. Liu, B. J. Pang and Z. Y. Han, Chinese High Technology Letters 19, 181 (2009). (in Chinese)
[14] F. Sch?fer and R. Janovsky, Acta Astronautica 61, 901 (2007).
[15] JIA Dongyong, LIU Zhidong, PANG Baojun, LIU Gang, ZHAO Shuo and GU Wei, Manned Spaceflight 18, 31 (2012). (in Chinese)
[16] W. G. Liu, B. J. Pang and Z. Y. Han, Chinese High Technology Letters 19, 181 (2009). (in Chinese)
[17] J. Hensman, R. Mills, S. G. Pierce, K. Worden and M. Eaton, Mechanical Systems & Signal Processing 24, 211 (2010).
[18] D. H. Park and Y. Park, Technical Acoustics 11, 12 (2006).
[19] Z. D. Liu, A study of the Acoustic Emission Source Location in FRP Laminated Plates for the Sensor Systems to Detect Impacts on Spacecraft, Harbin Institute of Technology, (2008). (in Chinese)
[20] A. Panopoulou, T. Loutas, D. Roulias, S. Fransen and V. Kostopoulos, Acta Astronautica 69, 445 (2011).
[21] S. I. Takeda, Y. Aoki and Y. Nagao, Composite Structures 94, 813 (2012).
[22] A. Ghoshal, J. Ayers, M. Gurvich, M. Urban and N. Bordick, Composites Part B: Engineering 71, 52 (2015).
[23] J. Y. Lu, D. K. Liang and X. W. Pan, Journal of Nanjing University of Aeronautics & Astronautics 41, 217 (2009).
[24] Z. J. Wu, X. X. Qu, D. Y. Gao, K. H. Liu and J. M. Feng, Research Progress on Structural Health Monitoring Technology for Aerospace Composite Structures, Aeronautical Manufacturing Technology 15, (2016). (in Chinese)
[25] A. Minardo, A. Cusano, R. Bernini, L. Zeni and M. Giordano, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 52, 304 (2005).
[26] Y. Z. Sai, M. S. Jiang and Q. M. Sui, Chinese Journal of Lasers 41, 0805003 (2014). (in Chinese)
LI Wei, JIANG Ming-shun, Lü Shan-shan, SU Chen-hui, LUO Yu-xiang, SHEN Jing-shi, JIA Lei. Hypervelocity impact monitoring and location identification on aluminum plate based on FBG sensing system[J]. 光电子快报(英文版), 2020, 16(4): 306.
PDF全文
