A review on the performance of reinforced concrete structures under blast loading
K. Senthil,Iwansh Gupta,S. Rupali,Loizos Pelecanos +3 more
- Vol. 3, Iss: 4, pp 216-228
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TLDR
In this article, a detailed literature review is conducted to understand the scope for protecting such structures and the structural behavior under blast loading, and the predicted spall diameter in the reinforced concrete slab is 0.95 m corresponding charge weight of 100 kg however the influence of spalling was found to be negligible after the 100 kg of charge weight.Abstract:
An explosion on the elevated structures caused by terrorist activities or manmade events can induce significant deformations in the Civil Engineering structures. Therefore, it is necessary to review the response of the structural behavior such as reinforced concrete slab, reinforced concrete beams, and columns. On the basis of this objective, a detailed literature review is conducted to understand the scope for protecting such structures and the structural behavior under blast loading. Based on the detailed literature survey, the investigations about the behavior of conventional reinforced concrete columns and slab initiated in 2005 however, the behavior of reinforced concrete beam was focused since the year 2010. Also, the literature reveals that the investigations on structural elements using analytical techniques are limited in comparison to experiments and simulations. In addition to that, the response of the structural elements was predicted and the trend was calibrated and fitted logarithmically with the experimental results. The predicted spall diameter in the reinforced concrete slab is 0.95 m corresponding charge weight of 100 kg however the influence of spalling was found to be negligible after the 100 kg of charge weight. The predicted spall length in the reinforced concrete beam is 1.6 m corresponding charge weight of 100 kg and the effect may be negligible after 100 kg of charge weight. The predicted deflection in the reinforced concrete columns is 30 mm corresponding to a peak reflected impulse of 1000 MPa-ms, whereas the deflection was found to be negligible after the 1000 MPa-ms of peak reflected impulse.read more
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Journal Article
Probabilistic Analysis of Reinforced Concrete Slab Subjected to Blast Loading
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Investigation of the structural damage caused by blasting activities in tunnels to surrounding buildings: The case of Gümüşhane belt highway
TL;DR: In this article , two buildings located close to the exit and entrance of two tunnels (T2 and T3 tunnels) on the Gümüşhane belt road were chosen to investigate.
References
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Numerical derivation of pressure-impulse diagrams for prediction of RC column damage to blast loads
TL;DR: In this article, a new damage criterion for RC column is defined based on the residual axial load-carrying capacity, and a numerical method to generate pressure-impulse diagrams for RC columns is proposed.
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Numerical simulation study of spallation in reinforced concrete plates subjected to blast loading
TL;DR: In this article, a numerical simulation study on the concrete spallation under various blast loading and structural conditions is presented, taking into account the strain rate effect and the structural effects.
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Residual strength of blast damaged reinforced concrete columns
Xiaoli Bao,Bing Li +1 more
TL;DR: In this article, a high-fidelity physics-based computer program, LS-DYNA, was utilized to provide numerical simulations of the dynamic responses and residual axial strength of reinforced concrete columns subjected to short standoff blast conditions.
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Experimental study and numerical simulation of the damage mode of a square reinforced concrete slab under close-in explosion
TL;DR: In this paper, the behavior of one-way square reinforced concrete (RC) slabs subjected to a blast load through experiments and numerical simulations is investigated and different damage levels and modes are observed.
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Numerical simulation of axially loaded concrete columns under transverse impact and vulnerability assessment
Herath Mudiyanselage Indika Thilakarathna,David Thambiratnam,Manicka Dhanasekar,Nimal Perera +3 more
TL;DR: In this article, a non-linear explicit numerical model has been developed and validated using existing experimental results, which accounts for the effects of strain rate and confinement of reinforced concrete, which are fundamental to the successful prediction of the impact response, and a universal technique which can be applied to determine the vulnerability of the impacted columns against collisions with new generation vehicles under the most common impact modes is proposed.