Numerical Study of Damage Modes and Damage Assessment of CFST Columns under Blast Loading

Junhao, Zhang; Jiang, Shiyong; Chen, Bin; Li, Chunhai; Qin, Hao

doi:10.1155/2016/3972791

Cited by 8 publications

(6 citation statements)

References 16 publications

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“…e corresponding damage indices D related to different explosion distances are calculated, respectively, and their relations are shown through the curves in Figure 9. e level classification of the damage indices D in the figure is quoted from [15]. As shown in Figure 9, the curve characteristics of the pier under the three types of car bombs are similar.…”

Section: Shock and Vibrationmentioning

confidence: 96%

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Traffic Capacity Assessment of the Urban Elevated Bridge after Near-Field Explosion Based on the Response Surface Method

Jiang

Xia

Wang

et al. 2020

Shock and Vibration

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The traffic capacity of the urban elevated bridge is assessed after it is attacked by a near-field explosion, using the residual bearing capacity of the damaged pier as the assessment index. First, the finite element model of a reinforced concrete slab under near-field explosion is established by ANSYS/LS-DYNA software and compared with the experimental results, which verifies the effectiveness of the ALE (arbitrary Lagrangian–Eulerian) algorithm and the accuracy of the mesh size and material properties. Then, an “explosive-air-pier” coupling analysis model is constructed using the finite element method, and the damage of the reinforced concrete pier under three types of car bombs is evaluated. Furthermore, a response surface model for the residual bearing capacity of the pier is utilized to calculate the failure probabilities of various damage levels of the pier under the three types of car bombs and to assess the traffic capacity of the bridge after near-field explosion. The established assessment method can be used to predict the probability of bridge structural damage at various levels under different types of car bombs and to provide a reference for exploring a probability-based safety assessment method of post-explosion bridges.

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Section: Shock and Vibrationmentioning

confidence: 96%

“…Based on the residual bearing capacity of the pier, the damage index D can be calculated, which is defined as [15] 150 mm…”

Section: Shock and Vibrationmentioning

confidence: 99%

Traffic Capacity Assessment of the Urban Elevated Bridge after Near-Field Explosion Based on the Response Surface Method

Jiang

Xia

Wang

et al. 2020

Shock and Vibration

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“…With the benefits of the CFST columns, using of the columns becomes widely adopted for multistorey building construction [2] and bridge piers [3]. In addition, the CFST columns also offer the advantage of preventing progressive collapse of buildings under blast loading [4]. However, there are some complications in the calculation of its capacity.…”

Section: Introductionmentioning

confidence: 99%

Tests of Inclined Concrete‐Filled Steel Tubular Stub Columns under Vertical Cyclic Loading

Hansapinyo

Buachart

Chaimahawan

2018

Advances in Civil Engineering

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This paper presents an experimental study on the cyclic behavior of fifteen concrete-filled steel tubular columns subjected to vertical cyclic loading. All test samples’ cross-sectional area is 75 × 75 mm2 square, and they are 500 mm long. The main variables in the test are the thickness of the steel tube (1.8 and 3.0 mm with the width-to-thickness ratios (b/t) of 41.7 and 25), the strength of the infilled concrete (no-fill, 23 MPa, and 42 MPa), and the inclined angle (0, 4, and 9 degrees). The results show that all samples failed due to local buckling in compression followed by tearing of the steel tube in tension. The inclination angles of 4 and 9 degrees decreased the vertical compressive capacity of the 1.8 mm vertical hollowed steel column by 34 and 39 percent, respectively. However, the infilled concrete and thicker tube (3.0 mm) could substantially reduce the adverse effect of the inclination angle. The compressive ductility of the hollowed column with the thinner tube was significantly enhanced by the infilled concrete as well.

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“…The column is one of the most important components in the reinforced concrete (RC) frame structures. Many researches were carried out to study the dynamic responses of RC structures subjected to blast loads including experiment (Islam and Yazdani, 2008; Slawson, 1984; Williamson et al, 2011a, 2011b), numerical simulation (Cofer et al, 2012; Tang and Hao, 2010; Wang et al, 2014; Zhang et al, 2016), and theory derivation (Qin et al, 2012). However, the parameter uncertainty was generally not considered in those studies.…”

Section: Introductionmentioning

confidence: 99%

An improved nonlinear analytical approach to generate fragility curves of reinforced concrete columns subjected to blast loads

Chen

Fang

et al. 2017

Advances in Structural Engineering

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Fragility curve is an efficient tool that is usually used to predict the failure probability of engineering structures in the damage assessment. To generate fragility curves for reinforced concrete columns under blast loads, a deterministic nonlinear analytical approach was first modified to consider the parameter uncertainties in materials, dimensions, and bearded loads. Monte Carlo simulation was applied to generate the corresponding fragility curves on the basis of the proposed approach. Damage of a typical reinforced concrete column under blast loads was assessed with the generated fragility curves. It was concluded that besides the standoff distance and equivalent trinitrotoluene charge, the axial force also significantly affected the damage of reinforced concrete columns under blast loads, especially in the moderate and large scaled distance.

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Numerical Study of Damage Modes and Damage Assessment of CFST Columns under Blast Loading

Cited by 8 publications

References 16 publications

Traffic Capacity Assessment of the Urban Elevated Bridge after Near-Field Explosion Based on the Response Surface Method

Traffic Capacity Assessment of the Urban Elevated Bridge after Near-Field Explosion Based on the Response Surface Method

Tests of Inclined Concrete‐Filled Steel Tubular Stub Columns under Vertical Cyclic Loading

An improved nonlinear analytical approach to generate fragility curves of reinforced concrete columns subjected to blast loads

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