• Computers and Concrete
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• 제23권2호
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• pp.121-131
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• 2019

Due to the heterogeneity nature of the concrete, it is difficult to simulate the hyperdynamic behaviour and crack trajectory of concrete material when subjected to explosion loads. In this paper, a 3D nonlinear numerical study was conducted to simulate the hyperdynamic behaviour of concrete under various loading conditions using Riedel-Hiermaier-Thoma (RHT) model. Detailed calibration was conducted to identify the optimal parameters for the RHT model on the material level. For the component level, the calibrated RHT parameters were used to simulate the failure behaviour of plain concrete (PC) slab under free air blast load. The response was compared with an available experimental result. The results show the proposed numerical model can accurately simulate the crack trajectory and the failure mode of the PC slab under free air blast load.

• 한국해양공학회지
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• 제29권1호
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• pp.70-77
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• 2015

The purpose of this study was to provide fundamental data for an anchor collision simulation of an FCM (flexible concrete mattress). Numerical material models (elastic-perfectly plastic model, Drucker-Prager model, and RHT concrete model) were compared. ANSYS Explicit Dynamics was used for collision analyses. An FE model was used for the anchor, FCM, andreinforcement bars. The results showed that the behavior of the FCM was verydifferent that those ofthe material models. In particular, the effect of the pressure dependent strength was most noticeable among the properties of concrete.

• 화약ㆍ발파
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• 제41권3호
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• pp.13-25
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• 2023

종래의 벤치발파 공법은 한 발파의 모든 발파공에 역기폭을 적용하지만 MDS (mixture detonation system) 발파공법에서는 각 발파공의 공간적 또는 시간적 순서에 따라 정기폭과 역기폭을 교대로 적용한다. 공간적 순서에 따라 교대 적용하는 공법을 SMDS (spatial MDS), 시간적 순서에 따르는 공법을 TMDS (temporal MDS)라 부른다. 또 하나의 변종으로서 MMDS (modified MDS)가 있는데, 이 공법은 비산문제가 있는 현장을 위한 특수공법이다. 본 연구에서는 암석파괴 효과의 측면에서 MDS 발파공법을 종래공법과 비교한다. 비교는 LS-DYNA 상에서 2열 벤치발파 모델에 대한 수치적 시뮬레이션으로 이루어진다. 수치모델에서는 SPH-FEM 연계기법을 적용한다. SPH 요소는 발파공 부근의 근거리 영역의 암석에 적용하고, FEM 요소는 그 바깥의 원거리 영역에 적용한다. 암석에 대한 재료모델은 RHT 모델을 사용한다. 실제로 시뮬레이션을 수행한 결과, 벤치고 3.0 m, 저항선 1.6 m의 경우에 SMDS 발파공법이 종래공법에 비해 최대 0.4 m 더 깊은 파괴영역을 보였다. 덧붙여, MMDS 발파공법의 경우, 여타 공법들에 비해 벤치면 전방으로의 암편의 비산속도가 약 2.0 m/s 더 낮게 나타났다.

• 한국해양공학회지
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• 제23권1호
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• pp.96-103
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• 2009

In 2006, Jeju Island in South Korea experienced a crisis, no electricity for three hours anywhere in the entire island. This incident was caused by a domino effect that occurred after one of the submarine power cables connecting the island to Haenam, a coastal city on the mainland, was damaged by an external load, probably from a ship anchor or a steel pile being used in marine farming. This study presents a collision analysis of a new submarine power cable protector called arch type reinforced concrete. For the analysis, a dynamic finite element program, ANSYS AUTODYN, was used to examine the displacement and stress of the submarine power cable protector using different material models (RHT concrete model, Mohr.Coulomb concrete model). In addition, two reinforcing bar spacings, 75 mm and 150 mm, were considered. From the analyses, the effects of the parameters (concrete model and spacing) on the results (displacement and stress) were analyzed, and the relations between the damage and parameters were found.