第39第4期 2017年8月
土水建筑与环境工程
Journal of Civil,Architectural &.Environmental Engineering
doi:10. 11835/i. issn. 16744764. 2017. 04. 017
Vol. 39 No. 4 Aug. 2017
空间高度对球面网壳结构内爆炸响应的影响
高轩能，付诗琪
（华侨大学土木工程学院，福建厦门361021）
摘要：基于修正后的Johnson-Cook材料模型，应用ANSYS/LS-DYNA建立K8型单层球面网壳计算模型，对内爆炸下不同空间高度的结构爆炸响应进行计算和分析。首先，分析结构内爆炸冲击波传播规律，验证模型参数选取的可行性；其次，讨论内爆炸作用下球面网壳的动力响应，对比分析不同本构模型对爆炸响应的影响；最后，定义下部支承结构所围体积占结构所围总体积的比值为空间高度系数，讨论空间高度系数对墙面未开洞和墙面开洞球面网壳动力响应的影响。结果表明，爆炸冲击波在球面网壳结构角部有汇聚效应，与反射冲击波共同作用，严重影响球面网壳结构的动力响应：对于墙面未开洞的球面网壳，爆炸响应受反射冲击波影响较大：对于墙面开洞的球面网壳，炸响应受空间高度系数影响较大。基于研究结果给出了球面网壳结构在内爆炸下防爆和抗爆设计的合理空间高度系数建议值。
关键词：球面网壳；内爆炸；空间高度；动力响应；冲击荷载
中图分类号：TU312.3;O383.2
文献标志码：A文章编号：1674-4764(2017)04-0107-08
Influence of space height on the internal explosion response
of single-layer spherical reticulated shell
Gao Xuanneng,Fu Shiqi
(College of Civil Engineering. Huaqiao University, Xiamen 361021, Fujian, P. R. China)
Abstract:Based on the modified Johnson-Cook material model, ANSYS / LS-DYNA was used to establish the model of K8 single-layer spherical reticulated shell, and the structural explosion responses were calculated and analyzed with different space heights. Firstly, the propagation law of the shock waves inside the structure was analyzed,and the feasibility of parameters selection was verified. Secondly, the dynamic responses of the spherical reticulated shell under the internal explosion were discussed, and the influence of different constitutive models on the explosion responses was comparative analyzed. Finally, the ratio of the volume enclosed by lower supporting structure to the total volume surrounded by the whole structure was defined as a space height coefficient. The influence of the space height coefficient on the dynamic responses of spherical latticed shell (with or without holes on wall) was studied and discussed. The results show that the shock waves have a converging effect at the corner of the spherical shell structure+ combined with the
收稿日期：2016-11-10
基金项目：国家自然科学基金（51278208）；福建省科技计划（2012Y4010）
作者简介：高轩能(1962-），男，教授，博士生导师，主要从事工程结构灾害控制研究，（E-mail)gaoxn117@sina.com。 Received:2016-11-10
Foundation item: National Natural Science Foundation of China( No. 51278208) ; Fujian Province Science and Technology
Program (No.2012Y4010)
Author brief: Gao Xuanneng (1962- ), professor, doctoral supervisor, main research interest: disaster control of
engineering structure, (E-mail)gaoxnl17@ sina. com
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