Journal of Applied Optics, Volume. 45, Issue 1, 221(2024)
Measurement technology of stress wave particle velocity in solid medium based on optical fiber coated probe
References(19)
[1] Xiaoming ZHU, Hongwei SONG, Hui LIU. The attenuation regular of blasting stress wave in rocks. Shanxi Architecture, 33, 112-113(2007).
[3] Yang HU, Yongtao CHEN, Shan JIN. Self-check fiber-optic sensor system in shock-wave velocity detection. Infrared and Laser Engineering, 41, 2444-2448(2012).
[4] Qiang LU, Zhanjiang WANG, Chaoju MEN et al. Analysis of spherical stress wave propagating in PMMA. Explosion and Shock Waves, 33, 561-566(2013).
[5] Zhanjiang WANG, Xiaolan LI, Ruoqi ZHANG et al. An experimental apparatus for spherical wave propagation in solid. Explosion and Shock Waves, 20, 103-109(2000).
[6] Qiang LU, Zhanjiang WANG, Yang DING et al. Characteristics of frequency response for linear viscoelastic spherical divergent stress waves. Explosion and Shock Waves, 37, 1023-1030(2017).
[7] Qiang LU, Zhanjiang WANG, Jingsen ZHANG et al. Comparative studies on characteristics of elastic wave radiated from the tamped explosion in loess and rock-like sandy soil. Explosion and Shock Waves, 39, 31-37(2019).
[8] N E FISHER, D J WEBB, C N PANNELL et al. Ultrasonic hydrophone based on short in-fiber Bragg gratings. Applied Optics, 37, 8120-8128(1998).
[9] P MORRIS, A HURRELL, A SHAW et al. A Fabry-Pérot fiber-optic ultrasonic hydrophone for the simultaneous measurement of temperature and acoustic pressure. The Journal of the Acoustical Society of America, 125, 3611-3622(2009).
[10] S WATSON, M J GANDER, W N MACPHERSON et al. Laser-machined fibers as fabry-perot pressure sensors. Applied Optics, 45, 5590-5596(2006).
[11] C KOCH, K V JENDERKA. Measurement of sound field in cavitating media by an optical fibre-tip hydrophone. Ultrasonics Sonochemistry, 15, 502-509(2008).
[12] Junming LIU, Xu ZHANG, Hongbo PEI et al. Measurement of Hugoniot relation for JB-9014 insensitive explosive. Chinese Journal of High Pressure Physics, 32, 43-49(2018).
[13] P MERCIER, J BÉNIER, P A FRUGIER et al. Nitromethane ignition observed with embedded PDV optical fibers. EPJ Web of Conferences, 10, 00016(2010).
[14] Shouxian LIU, Wenbin HUANG, Xiangyang DENG et al. Continuous detonation velocity measurement using embedded fiber probe, 4(2014).
[15] G A CRANCH, R LUNSFORD, J GRÜN et al. Characterization of laser-driven shock waves in solids using a fiber optic pressure probe. Applied Optics, 52, 7791-7796(2013).
[16] G A CRANCH, J GRÜN, J WEAVER et al. High power laser and explosive driven shock wave characterization in solids using fiber optic probes. SPIE, 9634, 189-192(2015).
[17] Zan GAO, Xianzhen JIA, Wei GUO et al. Study on input and transmit rules of shock wave in PMMA. Science Technology and Engineering, 12, 4634-4637(2012).
[18] Jian ZHOU, Xingwu LONG. Application of differential laser Doppler velocimeter in solid velocity measurement. Journal of Applied Optics, 30, 334-337(2009).
[19] Lili WANG. Foundation of stress waves, 45-47(2005).
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Rui DU, Jun YANG, Binbin LIAO, Qiang LU, Hang ZHENG, Yang DING, Guokai SHI, Jin LI, Haibin XU, Suoqi ZHANG, Dezhi ZHANG. Measurement technology of stress wave particle velocity in solid medium based on optical fiber coated probe[J]. Journal of Applied Optics, 2024, 45(1): 221
Paper Information
Category: Research Articles
Received: Mar. 7, 2023
Accepted: --
Published Online: May. 28, 2024
The Author Email: ZHANG Dezhi (张德志(1973—))
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