• Journal of Ship and Ocean Technology
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• 제5권3호
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• pp.36-44
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• 2001

The collision energy absorbing characteristics of side structure of the LNG carriers which have the cargo containment systems of the spherical and the membrane types are compared. A failure mechanism of the double hull side structures of 130, 000 $m^3$ class LNG carriers under sideways collision event has been simulated by using the detailed finite element calculations. In ship collision analysis, the finite element method based on explicit time integration has been use[1 with much success. Finite element modeling techniques for detail description of structural members antral ship motion regarding the dynamic behavior allowed to investigate the effect of bow shape and the initial contact position on side shell of collided ship. In the numerical simulations of the ship-to-ship sideways collision, the effect of the colliding bow shapes and the change of the colliding ship draft are investigated. The critical collision energy which is absorbed by a side structure of a collided ship until the fore-end of colliding ship arrives at the boundary of the cargo tank is calculated. The critical speed of specified colliding ships which can not penetrate the boundary of the LNG cargo tank of the collided ship under collision accident if evaluated.

• 수산해양기술연구
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• 제42권2호
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• pp.111-118
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• 2006

It is indispensable to grasp the turning ability of a ship to operate her effectively. For this purpose, the author measured the turning ability of training ship, A-RA by use of bow thruster and stem rudder. The turning ability of this ship, in case of using both of stem rudder and bow thruster at the same time, caused by increase of steering angle provides more influence to the size of tactical diameter than it caused by the power of bow thruster. But the influence of bow thruster on the turning ability is available only within rudder angle $5^{\circ}\;-\;10^{\circ}$, so it is possible to grasp that the effect of bow truster is reduced as rudder angle become bigger. In case of the influence of bow thruster by her speed, the ability of bow thruster is very effective at low speed, but it is almost not available in normal turning speed. Therefore, the using both of stem rudder and bow thruster can be useful in case of low speed proceeding at entrance or departure of the narrow waterway or inside port which sea traffic is congest for collision avoidance.

• 한국전산구조공학회논문집
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• 제33권1호
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• pp.25-33
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• 2020

본 논문에서는 Coupled Eulerian-Lagrangian(CEL) 기법을 이용하여 인공섬 형식의 방호공을 구성하는 수중사면에 선박이 충돌하는 경우 발생하는 선박의 선수와 지반의 거동에 대한 매개변수 해석을 수행하였다. 고려된 매개변수는 선수의 경우 선수각, 스템각, 충돌위치 그리고 충돌속도이며, 지반의 조건으로 사면의 기울기, 지반과 선박의 마찰계수 그리고 지반의 강도이다. 선수의 거동으로부터 소산된 충돌력과 운동에너지를 각 매개변수에 대해 산정하고, 이를 지반의 변형과 연계하여 에너지 소산기구의 거동을 파악하였다. 충돌력을 변위의 지수함수로 가정하고 매개변수의 영향을 검토하였다. 그 결과 지수함수의 계수는 사면의 경사와 선박과의 마찰계수에만 영향을 받는 결과를 얻었다. 이 관계로부터 소산되는 충돌에너지를 타당하게 산정할 수 있었다. 충돌 시 선수에 의해 밀려난 원지반의 부피와 소산된 충돌에너지는 비례하는 관계로 나타낼 수 있다는 것을 보였고, 이 관계는 선박의 형상보다는 선박과 사면의 마찰계수와 지반의 강도에 영향을 받는 것으로 나타났다.

• 대한조선학회지
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• 제19권4호
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• pp.1-10
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• 1982

An experimental investigation on the energy absorption of two staged combined structures is presented, which deals with the plastic collapse test as a series of research on soft bow structure involved in a ship collision. The principle of arithmetic superposition of energy absorption is derived upon experimental analysis and based upon the characteristics of the energy absorptions of component structures. This relationship is related to the further approach toward the design of soft bow.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 2005년도 춘계 학술발표회 논문집
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• pp.696-703
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• 2005

Recently, the collision problems between a bridge and a navigating ship are frequently issued at the stage of structure design. Even the many study results about vessel to vessel collision are presented, but the collision studies between vessel and bridge structure have been hardly presented. In this study, nonlinear dynamic analysis of vessel and fender system carry out using ABAQUS/Explicit commercial program with consideration of some parameters, such as bow structure we composed to shell element also ship's hull is modeling to beam element. Also, buoyancy effect is considered as spring element. The two types of fender systems was comparable with both collision analysis about steel materials fender system and rubber fender system On the purpose of study is analyzed the plasticity dissipated energy of vessel and fender system. We blow characteristic that kinetic energy is disappeared by plastic large deformation in case of collision. Also, We considered dissipated kinetic energy considering friction effect.

• 한국해양환경ㆍ에너지학회지
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• 제2권2호
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• pp.86-94
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• 1999

This paper describes a development of Collision/grounding Strength Assessment System (COSAS) using simplified method. This method is formulated in closed-form equation by taking into account crushing caused by bulbous bow collision and cutting caused by forward speed grounding. To verify the accuracy of the developed system, some examples for test models of double side/bottom structure in collision/grounding situation are considered. This system might be useful for analysis of structural damage of oil tankers in collision/grounding.

• 대한조선학회논문집
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• 제29권2호
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• pp.92-102
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• 1992

선박의 충돌사고시 선수구조의 충격에너지 흡수능력의 추정은 피충돌선박 또는 해양구조물의 충돌에 대응하는 구조설계에 중요하게 이용될 수 있다. 본 연구에서는 복잡한 선수구조의 충돌에 대한 파손량의 추정을 위하여 선수구조를 에너지흡수 단위구조인 기본 요소들로 구분하고 각각의 요소에 대한 압괴강도를 추정할 수 있는 이론식을 제안하였고, 이를 실험 결과들과 비교하여 유용성을 검증하였다. 또한, 이 단위 구조요소들의 에너지흡수 추정식을 조합하여 선수구조와 같이 복잡한 구조에 적용할 수 있는 간이한 식을 유도하였다. 한편, 이러한 과정을 복잡한 구조의 파손해석을 수행할 수 있는 컴퓨터 코드를 개발하였고, 이를 선수구조 모델의 압괴실험 결과에 적용하여 만족할 만한 결과를 얻었다.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 2004년도 봄 학술발표회 논문집
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• pp.193-200
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• 2004

In this study, the impact load on bridge by vessel collision in consideration of fender system is evaluated by numerical method. The bow of object vessel(DWT5000) is standardized, and modeled by shell elements. The main body of objective vessel is modeled by beam elements that present mass distribution and stiffness of vessel. The buoyancy effect of vessel is considered as linear spring. The two types of fender systems, such as steel and rubber are analyzed in this study. In steel fender system, the steel plates that absorb collision energy by its collapse are modeled by shell element with stiffener. The steel is material modeled elastic-plastic material. In the rubber fender system, the rubber material is modeled hyper-elastic material and the main body of fender is modeled by solid elements. The global impact responses of vessel and fender system are evaluated by explicit dynamic scheme. The results show that the magnitude of vessel collision force are depended on the material behavior of fender system. Also the values of collision load are conservative compare to the those of design codes.

• 대한토목학회논문집
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• 제36권1호
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• pp.31-38
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• 2016

논문에서는 파일형 선박충돌방호공의 주요 에너지 소산기구인 파일의 소성힌지와 선수변형에 대한 변형-에너지곡선을 산정하고 이를 이전 연구에서 개발된 간이 충돌모델에 적용하여 매개변수해석을 수행하였다. 고려된 매개변수는 슬래브의 질량, 파일의 수, 선박의 질량 및 충돌속도였으며 이들 매개변수를 변화시키면서 충돌거동을 분석하였다. 연구결과, 충진강관과 비충진강관의 에너지 소산거동이 차이를 파악했고, 슬래브의 관성질량을 조절하여 방호공의 충돌거동을 변화 시킬 수 있는 것으로 나타났다. 따라서 개발된 간이모델은 기본설계나 최적설계에 이용될 수 있을 것이다.

• Structural Engineering and Mechanics
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• 제67권1호
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• pp.9-20
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• 2018

In this paper, a framework is proposed for dynamic analysis of train-bridge systems with a damaged pier after barge collision. In simulating the barge-pier collision, the concrete pier is considered to be nonlinear-inelastic, and the barge-bow is modeled as elastic-plastic. The changes of dynamic properties and deformation of the damaged pier, and the additional unevenness of the track induced by the change of deck profile, are analyzed. The dynamic analysis model for train-bridge coupling system with a damaged pier is established. Based on the framework, an illustrative case study is carried out with a $5{\times}32m$ simply-supported PC box-girder bridge and the ICE3 high-speed train, to investigate the dynamic response of the bridge with a damaged pier after barge collision and its influence on the running safety of high-speed train. The results show that after collision by the barge, the vibration properties of the pier and the deck profile of bridge are changed, forming an additional unevenness of the track, by which the dynamic responses of the bridge and the car-body accelerations of the train are increased, and the running safety of high-speed train is affected.