第 46 卷                 姚术健，等： 等效模拟爆炸加载试验技术研究进展                                  第 4 期

               [35]   PAYNE T, WILLIAMS A, WORFOLK T, et al. Large-scale explosive arena trials – is your target being loaded correctly? [J].
                     Explosives Engineering, 2016: 10–16.
               [36]   马亮亮, 吴昊. 爆炸作用下预应力       RC  梁桥的损伤评估 [J]. 工程力学, 2025, 42(11): 159–172. DOI: 10.6052/j.issn.1000-
                     4750.2023.05.0378.
                     MA L L, WU H. Damage assessment of prestressed RC girderbridge under explosion [J]. Engineering Mechanics, 2025,
                     42(11): 159–172. DOI: 10.6052/j.issn.1000-4750.2023.05.0378.
               [37]   RITCHIE  C  B,  PACKER  J  A,  SEICA  M  V,  et  al.  Rectangular  hollow  sections  subject  to  blast  loading  [J].  Journal  of
                     Structural Engineering, 2017, 143(12): 04017167. DOI: 10.1061/(ASCE)ST.1943-541X.0001922.
               [38]   YAO S J, CHEN F P, WANG Y J, et al. Experimental and numerical investigation on the dynamic response and damage of
                     large-scale multi-box structure under internal blast loading [J]. Thin-Walled Structures, 2023, 183: 110430. DOI: 10.1016/j.
                     tws.2022.110430.
               [39]   周岳兰, 裴鲁, 龙仁荣, 等. 激波管内压力脉冲演化特性及模拟空爆冲击波的方法研究 [J]. 兵工学报, 2023, 44(12):
                     3815–3825. DOI: 10.12382/bgxb.2023.0284.
                     ZHOU Y L, PEI L, LONG R R, et al. Study on the evolution characteristics of pressure pulse in shock tube and a method of
                     simulating air explosion shock wave [J]. Acta Armamentarii, 2023, 44(12): 3815–3825. DOI: 10.12382/bgxb.2023.0284.
               [40]   KOCHAVI E, GRUNTMAN S, BEN-DOR G, et al. Design and construction of an in-laboratory novel blast wave simulator [J].
                     Experimental Mechanics, 2020, 60(8): 1149–1159. DOI: 10.1007/s11340-020-00650-0.
               [41]   DAVY H. Ⅶ. Some researches on flame [J]. Philosophical Transactions of the Royal Society of London, 1817, 107: 45–76.
                     DOI: 10.1098/rstl.1817.0008.
               [42]   VIEILLE M. Étude sur le role des discontinuités dans les phénomènes de propagation [J]. Journal of Physics: Theories and
                     Applications, 1900, 9(1): 621–644. DOI: 10.1051/JPHYSTAP:019000090062100.
               [43]   VIEILLE P. Sur les discontinuités produites par la détente brusque de gaz comprimés [J]. Comptes Rendus de lÁ cadémie
                     des Sciences, 1889, 129: 1228.
               [44]   IGRA O, SEILER F. Experimental methods of shock wave research [M]. Cham: Springer, 2016: 3–52. DOI: 10.1007/978-3-
                     319-23745-9.
               [45]   汤文辉. 冲击波物理教程 [M]. 长沙: 国防科技大学出版社, 2016: 195–202.
               [46]   COURANT R, FRIEDRICHS K O. Supersonic flow and shock waves [M]. New York: Springer, 1999: 83–99.
               [47]   ANDERSON J D JR. Modern compressible flow: with historical perspective [M]. New York: McGraw-Hill, 1990.
               [48]   殷文骏, 童念雪, 程帅, 等. 爆炸驱动激波管冲击波压力参数研究 [J]. 现代应用物理, 2024, 15(2): 021003. DOI: 10.12061/
                     j.issn.2905-6223.2024.021003.
                     YIN W J, TONG N X, CHENG S, et al. Shock wave pressure parameters of blast-driven shock tube [J]. Modern Applied
                     Physics, 2024, 15(2): 021003. DOI: 10.12061/j.issn.2905-6223.2024.021003.
               [49]   SCHIMIZZE B, SON S F, GOEL R, et al. An experimental and numerical study of blast induced shock wave mitigation in
                     sandwich structures [J]. Applied Acoustics, 2013, 74(1): 1–9. DOI: 10.1016/j.apacoust.2012.05.011.
               [50]   胡洋, 杨雨欣, 吴秋遐. 基于激波管系统对瓦斯爆炸的研究 [J]. 华北科技学院学报, 2022, 19(4): 89–93. DOI: 10.19956/
                     j.cnki.ncist.2022.04.015.
                     HU Y, YANG Y X, WU Q X. Study on gas explosion based on shock tube system [J]. Journal of North China Institute of
                     Science and Technology, 2022, 19(4): 89–93. DOI: 10.19956/j.cnki.ncist.2022.04.015.
               [51]   LOUAR  M  A,  BELKASSEM  B,  OUSJI  H,  et  al.  Estimation  of  the  strain  rate  hardening  of  aluminium  using  an  inverse
                     method and blast loading [J]. Journal of Dynamic Behavior of Materials, 2017, 3(3): 347–361. DOI: 10.1007/s40870-017-
                     0101-y.
               [52]   SPRANGHERS K, VASILAKOS I, LECOMPTE D, et al. Full-field deformation measurements of aluminum plates under
                     free air blast loading [J]. Experimental Mechanics, 2012, 52(9): 1371–1384. DOI: 10.1007/s11340-012-9593-5.
               [53]   SPRANGHERS K, VASILAKOS I, LECOMPTE D, et al. Identification of the plastic behavior of aluminum plates under
                     free air explosions using inverse methods and full-field measurements [J]. International Journal of Solids and Structures,
                     2014, 51(1): 210–226. DOI: 10.1016/j.ijsolstr.2013.09.027.
               [54]   SPRANGHERS K, VASILAKOS I, LECOMPTE D, et al. Numerical simulation and experimental validation of the dynamic
                     response of aluminum plates under free air explosions [J]. International Journal of Impact Engineering, 2013, 54: 83–95.


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