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

                     FU Y Y, NIU S T, YAN J Y, et al. Drop tests of lightning protection seats in simulation of explosion impact load [J]. Journal
                     of Ordnance Equipment Engineering, 2023, 44(6): 154–160. DOI: 10.11809/bqzbgcxb2023.06.021.
               [109]   WOLFSONO  J  C.  Blast  damage  mitigation  of  steel  structures  from  near-  contact  charges  [D].  San  Diego:  University  of
                     California, 2008: 30–75.
               [110]   OESTERLE M G. Blast simulator wall tests: experimental methods and mitigation strategies for reinforced concrete and
                     concrete masonry [D]. San Diego: University of California, 2009: 78–151.
               [111]   STEWART L K. Experimental and computational methods for steel columns subjected to blast loading [J]. WIT Transactions
                     on The Built Environment, 2012, 126: 157–168. DOI: 10.2495/SU120141.
               [112]   STEWART L K, FREIDENBERG A, RODRIGUEZ-NIKL T, et al. Methodology and validation for blast and shock testing
                     of structures using high-speed hydraulic actuators [J]. Engineering Structures, 2014, 70: 168–180. DOI: 10.1016/j.engstruct.
                     2014.03.027.
               [113]   STEWART L K. Computational modeling of steel columns subjected to experimentally simulated blasts [J]. International
                     Journal of Computational Methods and Experimental Measurements, 2014, 2(3): 225–242. DOI: 10.2495/CMEM-V2-N3-
                     235-242.
               [114]   FREIDENBERG A, LEE C W, DURANT B, et al. Characterization of the blast simulator elastomer material using a pseudo-
                     elastic  rubber  model  [J].  International  Journal  of  Impact  Engineering,  2013,  60:  58–66.  DOI:  10.1016/j.ijimpeng.2013.
                     04.009.
               [115]   FREIDENBERG A, AVIRAM A, STEWART L K, et al. Demonstration of tailored impact to achieve blast-like loading [J].
                     International Journal of Impact Engineering, 2014, 71: 97–105. DOI: 10.1016/j.ijimpeng.2014.04.006.
               [116]   PERONI  M,  SOLOMOS  G,  CAVERZAN  A,  et  al.  Blast  simulator  project:  first  tests  on  reinforced  concrete  beams  [R].
                     Luxembourg: Publications Office of the European Union, 2015. DOI: 10.2788/598353.
               [117]   XIONG Z X, WANG W, YU G C, et al. Experimental and numerical study of non-explosive simulated blast loading on
                     reinforced concrete slabs [J]. Materials, 2023, 16(12): 4410. DOI: 10.3390/ma16124410.
               [118]   姚术健, 王延靖, 陈奕恺, 等. 基于二氧化碳相变的模拟爆炸加载试验系统及方法: CN202411061136.3 [P]. 2024-10-22.
                     YAO S J, WANG Y J, CHEN Y K, et al. Simulated explosion loading test system and method based on carbon dioxide phase
                     change: CN202411061136.3 [P]. 2024-10-22.
                                                                                            (责任编辑    王影)







































                                                         041101-20