Abstract

Although many studies on the blast-resistant performance of structures have focused mainly on single members such as beams and columns, there is little research on the behavior of joints that are subjected to blast loads. In this study, the structural behavior of a slab–column connection subjected to blast load was investigated using a numerical analysis method. LS-DYNA was used as a finite element analysis program, and in order to improve the accuracy of numerical analysis, mesh size, material model, and simulation method of blast load were determined through preliminary analysis. The effect of different restraints of the joints, depending on the position of the columns in the slab, on the blast resistance performance was investigated. As a result, the highly confined slab-interior column connection showed better behavior than other edge and corner columns. The drop panel installed between the lower column and the slab was effective in improving the blast-resistance performance of the slab–column connection. For a more accurate evaluation of blast resistance performance, it was suggested that various evaluation factors such as ductility ratio, reinforcing stress, and concrete fracture area can be considered along with the support rotation, which is an important evaluation factor suggested by many standards.

Highlights

  • As explosive terrorism and explosion accidents continue to occur around the world, research on the behavior of structures under such extreme situations is increasing [1,2,3].Most of these studies focus on how single members such as beams, columns, and slabs behave under explosive loads

  • It is necessary to investigate the blast-resistance performance of slab–column connections depending on the type of the column and the amount of explosive load

  • When the explosive load was applied, high compressive forces were generated in the slabs and columns directly affected by the explosion load

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Summary

Introduction

As explosive terrorism and explosion accidents continue to occur around the world, research on the behavior of structures under such extreme situations is increasing [1,2,3]. Most of these studies focus on how single members such as beams, columns, and slabs behave under explosive loads. The behavior of slab–column joint with drop panel, which is a square portion provided above the lower column and below the slab, was investigated. Drop panels that provide increased shear strength and moment resistance are expected to be effective in improving the blast-resistance performance of slab–column joints. In this study, numerical analysis, one of the best options to discuss this phenomenon, was performed using LS-DYNA, a general-purpose finite element analysis program whose reliability has been verified through many previous studies [7,8]

Literature Review
Details of Specimens
Modeling of Specimens
Modeling of Blast Loads
Design
Analysis Results
Slab Deflection
Critical Section in Slab
Steel Stresses in Slab
Column Behavior
Conclusions

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