高性能建筑结构爆炸吸能系统的研制

IF 2.1 Q2 ENGINEERING, CIVIL International Journal of Protective Structures Pub Date : 2023-06-29 DOI:10.1177/20414196231183006
G. Gomes, V. Lúcio, C. Cismaşiu
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引用次数: 0

摘要

多年来,减振器在汽车和航空工业中得到了广泛的应用。受这些装置的启发,本文对建筑结构抗爆炸载荷的高性能防护系统进行了分析和数值评估,该系统由一个屏蔽元件组成,该屏蔽元件通过延性吸能连接器(EACs)在楼层连接到主结构。EACs利用外管倒置机制来吸收冲击波中很大一部分的动能。虽然该系统原型是在实验室中开发的,但它已经在全面的爆破测试活动中进行了表征和测试。接下来使用经过验证的有限元模型来分析其在更苛刻的设计场景中的性能。EACs的引入显著降低了峰值水平荷载和转移到受保护结构的动能,预计除了保护结构和非结构构件外,还将显著降低支撑垂直构件中的应力。这些结果鼓励对现有的保护系统进行进一步研究,该系统可能用于各种爆炸威胁场景,特别是当增加对峙不是一个可能/可行的选择,并且必须保护敏感设施时。
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Development of a high-performance blast energy-absorbing system for building structures
Shock absorbers have been widely used in the automotive and aeronautical industries for many years. Inspired on these devices, the paper presents an analytical and numerical assessment of a high performance protective system for building structures against blast loads, which is composed of a shielding element connected to the main structure, at the floor levels, through ductile Energy Absorbing Connectors (EACs). The EACs exploit the external tube inversion mechanism to absorb a significant part of the imparted kinetic energy from the blast wave. While the system prototype has been developed in laboratory, it was characterized and tested in a full-scale blast testing campaign. A validated finite element model was used next to analyze its performance in a more demanding design scenario. The introduction of EACs notably reduces the peak horizontal loads and the kinetic energy transferred to the protected structure, being expected a significant reduction of the stresses in the supporting vertical elements, in addition to the protection of structural and non-structural members. These results encourage further studies of the presented protective system that can be potentially employed for a large variety of blast threat scenarios, especially when increasing the stand-off is not a possible/viable option and sensitive facilities have to be protected.
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来源期刊
CiteScore
4.30
自引率
25.00%
发文量
48
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