激波与油气爆炸耦合作用下浅埋混凝土油库的破坏损伤模式OA
Failure and damage modes of shallow-buried RC oil depots subjected to coupled shock wave and oil-gas explosion
为研究激波与油气爆炸耦合作用下浅埋式混凝土结构油库的破坏损伤模式,设计制作了浅埋式钢筋混凝土结构油库的缩比模型,研究了油库结构、油气类型、油气量及爆源位置对混凝土油库破坏损伤模式的影响机制.研究结果表明:爆炸激波作用于油库顶盖造成迎爆面冲切贯穿破坏和背爆面剥离损伤,且柴油量为 50%(即半库)时顶盖的破坏程度大于柴油量为 100%(即满库)时;柴油量为 100%并加装顶盖时,冲击波超压上升阶段会出现 2 个峰值,柴油量为 50%并加装顶盖时,由于内部空腔的界面反射作用,超压上升阶段出现了 3 个峰值,并且冲击波正压持时明显延长;库体底部起爆时,油库顶盖和整体均产生严重破坏,冲击波在角隅处反射叠加,会导致油库主体角隅处出现明显的剪切开裂;相比于柴油量为 50%时,汽油量为 50%时爆炸产生的火球范围更大,燃烧时间更长,但油库主体结构并不会被破坏.
To investigate the failure and damage modes of shallow-buried reinforced concrete(RC)oil depots under coupled shock wave and oil-gas explosion,a scaled model of a shallow-buried reinforced concrete oil depot was designed.The influence mechanisms of the oil depot structure,oil type and content,and explosion source location on the damage and failure modes of the concrete oil depot were studied.The results show that the blast shock wave acting on the oil depot cover causes punching-perforation failure on the blast-facing side and spalling failure on the blast-opposite side.The damage of the cover containing 50%diesel is more severe than that at 100%diesel content.For 100%diesel with the cover installed,two peaks appear during the overpressure rise stage of the shock wave.For 50%diesel with the cover installed,due to interface reflections in internal cavity,three peaks appear during the overpressure rise stage compared with the full-oil case,and the positive pressure duration of the shock wave is significantly prolonged.When the explosion is initiated at the bottom of the depot,both the cover and the entire depot structure are severely damaged.Reflected wave superposition at the corners leads to significant shear cracking at the edges of the main structure.Compared with the explosion of 50%diesel,the explosion of 50%gasoline produces a larger fireball and a longer combustion duration,but does not cause damage to the main structure of the oil depot.
宋鹏;邱艳宇;徐观淦;胡玉凤;毛相铮;邢化岛;解立峰
南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094陆军工程大学爆炸冲击防灾减灾全国重点实验室,江苏 南京 210042南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094南京理工大学安全科学与工程学院(应急管理学院),江苏 南京 210094
数理科学
浅埋油库混凝土结构损伤模式冲击波
shallow-buried oil depotreinforced concrete structuredamage modeshock wave
《爆炸与冲击》 2026 (6)
14-28,15
国家重点研发计划(2021YFC3100700)国家自然科学基金(12202202)
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