爆炸荷载下基于细观建模的素/钢筋混凝土板破坏模式

Translated title of the contribution: Dynamic response of mesoscopic plain/reinforced concrete slabs under blast loading

Jiachao Sun, Xiaowei Chen*, Yongjun Deng, Yong Yao

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)

Abstract

In order to obtain the effect of meso-structure on plain/reinforced concrete slabs under explosive loading, a meso-structure model of plain/reinforced concrete slabs with stochastic aggregate method was adopted. LS-DYNA was used for numerical simulation of reinforced concrete slabs based on meso-modeling under explosive loading. The accuracy of the meso-modeling method was verified by comparing with the experimental and homogeneous modeling methods. Furthermore, the structural dynamic response of plain/reinforced concrete slabs based on meso-modeling under different explosive loads was studied, and the response process and failure mode of plain/reinforced concrete slabs were obtained. The results show that the meso-structure has little effect on the plain/reinforced concrete slab under low explosive loading (1 kg and 2 kg). The failure mode is mainly based on the vertical and horizontal plastic hinge damage. The larger the dose, the more the hinge line. Comparatively, the meso-structure has a great influence on the plain/reinforced concrete slab under the high explosive load (5 kg, 10 kg and 15 kg), and there is a big difference compared with the homogeneous model. The plain/reinforced concrete slab is centered on the blasting pit and produces circumferential and radial cracks under high explosive loading (5 kg, 10 kg and 15 kg). The larger the dose, the larger the round pit, the more cracks, the more serious the local damage.

Translated title of the contributionDynamic response of mesoscopic plain/reinforced concrete slabs under blast loading
Original languageChinese (Traditional)
Article number113101
JournalBaozha Yu Chongji/Expolosion and Shock Waves
Volume39
Issue number11
DOIs
Publication statusPublished - 5 Nov 2019

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