爆炸地震动下矩形储液结构动力响应理论研究  

作　　者：张浩天 宋春明 王明洋 赵雪川[3] 吴红晓 郑际镜 ZHANG Haotian;SONG Chunming;WANG Mingyang;ZHAO Xuechuan;WU Hongxiao;ZHENG Jijing(Disaster Prevention and Mitigation of Explosion and Impact,Army Engineering University of PLA,Nanjing 210007,iangsu,China;School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing 210094,Jiangsu,China;Unit 96911 of PLA,Beijing 100010,China)

机构地区：[1]陆军工程大学爆炸冲击防灾减灾国家重点实验室,江苏南京210007 [2]南京理工大学机械工程学院,江苏南京210094 [3]中国人民解放军96911部队,北京100010

出　　处：《爆炸与冲击》2023年第8期118-133,共16页Explosion and Shock Waves

基　　金：国家自然科学基金(51808553)。

摘　　要：为完善防护工程储液结构设计与评估体系,开展了爆炸冲击地震动作用下储液结构动力响应理论研究。将矩形储液结构简化为具有分布弹性的广义单自由度体系,采用虚功原理建立水平地震动下结构运动方程,通过双向梁函数组合法、Rayleigh法和Duhamel积分法分别得到储液结构壁板振型、振动频率和动力响应,进而构建地震响应谱。利用爆炸冲击震动模拟平台开展模型试验,结构测点应变、动水压力计算值与试验数据基本一致,验证了理论方法。通过算例分析储液率、地震动要素对模型结构动力响应的影响,构建爆炸地震动下储液结构挠度响应谱,结果表明:随储液率增加,结构基频降低,地震动激励特征因子先提高后降低,后者反映流固耦合对地震作用的强化效应先增强后减弱;弹性范围内,随地震动加速度峰值提高,结构挠度响应线性提高;地震动加速度持时和波形改变影响频谱特性,使挠度响应发生非线性变化;典型波形爆炸地震动的作用效果均可划分为相对于等效静力作用的缓和区、增强区和等效区;以响应谱峰值作为最不利响应进行防护设计偏于保守,考虑场地爆炸参数范围进行计算可提高工程设计的经济性。To improve the design and evaluation system of liquid storage structure(LSS)in protection engineering,theoretical research on the dynamic response of LSS subjected to explosion-induced ground shock has been carried out.The rectangular LSS was simplified into a generalised single-degree-of-freedom system with distributed elasticity.The motion equation under horizontal ground shock was established based on the virtual work principle.The vibration mode function,vibration frequency,and dynamic response of the rectangular plate were obtained using the two-way beam function combination,the Rayleigh method,and the Duhamel’s integration method,respectively.The influences of liquid filling ratio,and ground-shock essentials(i.e.the peak,duration,waveform of ground acceleration)on the dynamic response of the model LSS were analysed by calculation examples.The maximum deflection was used as an index to build the dynamic response spectrum of the LSS subjected to explosion-induced ground shocks.The results showed that,with the increase of liquid filling ratio,the fundamental frequency of the structure decreases,and the characteristic factor of ground motion excitation first increase and then decrease.The latter reflects that the strengthening effect of fluid-structure interaction on seismic action is first enhanced and then weakened.Within the elastic range,as the peak value of ground acceleration increases,the deflection response of the LSS increases linearly.The varations in the duration and waveform of ground acceleration affect the spectrum characteristics,causing the nonlinear changes of deflection response.The effects of explosion-induced ground shocks featured by various typical waveforms can be divided into the mitigation,enhancement,and equality regions relative to the equivalent static action.It is conservative to take the peak of response spectrum as the most adverse response for protection design,whereas the calculation considering the range of site explosion parameters would improve the economy of engineering de

关 键 词：储液结构 广义单自由度体系 虚功原理 流固耦合 爆炸地震动 响应谱 

分 类 号：O342[理学—固体力学] TV31[理学—力学]