原文传递
Dynamic Response Prediction of RC Structural Components Subjected to Combined Blast and Fragment Impact
| 题名: | Dynamic Response Prediction of RC Structural Components Subjected to Combined Blast and Fragment Impact |
| 正文语种: | eng |
| 作者: | Goswami, Abhiroop;Ganesh, Thiagarajan;Das Adhikary, Satadru |
| 作者单位: | Indian Inst Technol ISM Dhanbad Dept Civil Engn Dhanbad 826004 Jharkhand India;Univ Missouri Dept Civil Engn 352 Flarsheim Hall 5100 Rockhill Rd Kansas City MO 64110 USA;Indian Inst Technol ISM Dhanbad Dept Civil Engn Dhanbad 826004 Jharkhand India |
| 摘要: | The paper presents a methodology for enumerating the dynamic response of one-way reinforced concrete (RC) structural elements subjected to combined blast and fragment loading, a scenario commonly associated with the detonation of cased explosive charges. The proposed methodology is motivated by the relatively few studies published in this area and the simplified design procedures that are currently used for addressing this problem. The formulated framework, in addition to the consideration of the blast and the fragment loading, also accounts for the damage incurred by the member due to the localized penetration caused by the impacting fragments. The fragment-induced damage is accounted for by considering a member having a reduced cross-sectional depth, i.e., a damaged member. Material nonlinearity and the strain rate-sensitive aspects of both concrete and steel are also considered. The dynamic structural response of the member was quantified by idealizing the member as an equivalent single-degree-of-freedom system. Finite-element (FE) simulations were conducted by the authors for assessing the efficacy of the adopted formulations. On the basis of the comparative assessment, the results of the FE simulations were found to match relatively well with the results of the proposed approach (relative difference being in the range of 8.95%-12.67%). Additionally, the peak displacements for the cased explosive charges were noted to increase by approximately 31%-123% compared to bare (uncased) explosive charges of similar charge weights. While this observation underlines the severity of cased explosive charges, it also qualitatively highlights the damaging propensity of the striking fragments, a component that generally is not exclusively considered for design purposes. (C) 2021 American Society of Civil Engineers. |
| 出版年: | 2022 |
| 期刊名称: | Journal of structural engineering |
| 卷: | 148 |
| 期: | 2 |
| 页码: | 04021264.1-04021264.13 |
相关文献
- Dynamic Response of RC Elements Subjected to Combined Loading of Blast and Fragments
- Erratum for 'Dynamic Response of RC Elements Subjected to Combined Loading of Blast and Fragments'
- Nonlinear Analysis of Shear-Deficient Beams Strengthened Using UHPFRC under Combined Impact and Blast Loads
- Experimentally Investigating Annealed Glazing Response to Long-Duration Blast
- Numerical Modeling of Concrete-Filled FRP Tubes' Dynamic Behavior under Blast and Impact Loading
- Development of Hysteretic Model with Dynamic Effect and Deterioration for Seismic-Performance Analysis of Reinforced Concrete Structures
检索历史
应用推荐
