• 제목/요약/키워드: Marine structural element

검색결과 182건 처리시간 0.022초

Numerical analysis of concrete degradation due to chloride-induced steel corrosion

  • Ayinde, Olawale O.;Zuo, Xiao-Bao;Yin, Guang-Ji
    • Advances in concrete construction
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    • 제7권4호
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    • pp.203-210
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    • 2019
  • Concrete structures in marine environment are susceptible to chloride attack, where chloride diffusion results in the corrosion of steel bar and further lead to the cracking of concrete cover. This process causes structural deterioration and affects the response of concrete structures to different forms of loading. This paper presents the use of ABAQUS Finite Element Software in simulating the processes involved in concrete's structural degradation from chloride diffusion to steel corrosion and concrete cover cracking. Fick's law was used for the chloride diffusion, while the mass loss from steel corrosion was obtained using Faraday's law. Pressure generated by steel corrosion product at the concrete-steel interface was modeled by applying uniform radial displacements, while concrete smeared cracking alongside the Extended Finite Element Method (XFEM) was used for concrete cover cracking simulation. Results show that, chloride concentration decreases with penetration depth, but increases with exposure time at the concrete-steel interface. Cracks initiate and propagate in the concrete cover as pressure caused by the steel corrosion product increases. Furthermore, the crack width increases with the exposure time on the surface of the concrete.

Estimation of Stress Intensity Factors for 3-Dimensional Surface Defects under Axial Tensile Loads Using the Finite Element Method

  • Jeon, Byung-Young;Kumar, Y.V. Satish;Kang, Sung-Won
    • 한국해양공학회:학술대회논문집
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    • 한국해양공학회 2002년도 추계학술대회 논문집
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    • pp.267-272
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    • 2002
  • Pitting corrosion is a very common occurrence in marine structures. Therefore, the 3-D finite element analysis is carried out to determine the stress intensity factors at the pit depth and also at the surface of the pit. The pits are modeled as a part of sphere, based on the pit depth and the pit diameter as specified by the Ship Structural Committee. The pit depth and pit diameter are function of the percentage of pitting that the plate is subjected to. A dog-bone shaped specimen is subjected to different intensities of pitting and the stress intensity factors are determined under axial tensile loads.

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경계조건과 두께 변화에 따른 사각탱크의 진동 특성 (Vibration Characteristics of A Rectangular Tank in accordance with Changing Thickness And Boundary Condition)

  • 배성용
    • 동력기계공학회지
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    • 제15권1호
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    • pp.24-31
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    • 2011
  • Rectangular box type structures are used in many fields of civil, mechanical and marine engineering. Especially, Most ship structures are often in contact with inner or outer fluid, like ballast, fuel and stem tanks. Fatigue damages are sometimes observed in these tanks which seem to be caused by resonance with exciting force of engine and propeller. Vibration characteristics of these thin walled tanks in contact with fluid near engine and propeller are strongly affected by added mass of containing fluid. Therefore it is essentially important to estimate the added mass effect to predict vibration of the tanks. Many authors have studied vibration of rectangular tanks containing fluid. Few research on dynamic interaction among tank walls filled with fluid are reported in the vibration of rectangular tanks recently. In case of rectangular tanks, structural coupling between adjacent panels and effect of vibration modes of multiple panels on added mass of water have to be considered. In the previous report, a numerical analysis is performed for the coupling effect between panels of a tank on added mass of containing fluid, the effect of structural constraint between panels on each vibration mode for fluid region, and mode characteristics in accordance with changing breadth of the plates by using finite element method for plates and boundary element method for fluid region. In this paper, the coupling effect between panels of a tank on added mass of containing fluid, the effect of structural constraint between panels on each vibration mode for fluid region, and mode characteristics in accordance with changing length, thickness, and boundary condition of the plates are investigated numerically and discussed.

A Study on the Coupled Torsional-Axial Vibration of Marine Propulsion Shafting System using the Energy Method

  • Jang, Min-Oh;Kim, Ue-Kan;Park, Yong-Nam;Lee, Young-Jin
    • Journal of Advanced Marine Engineering and Technology
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    • 제28권3호
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    • pp.482-492
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    • 2004
  • Recently. the market trend for marine diesel engine has involved the lower running speeds. larger stroke/bore ratio and higher combustion pressure. Consequently, because of the flexible engine shafting system due to the larger mass. inertia and the more elasticity, the complicated coupled torsional-axial vibrations have occurred in the operating speed range. Also, the vibrations act as an excitation on the hull-structural vibration. To predict the vibration behavior with more accuracy and reliability. many studies have proposed the several kinds of method to calculate the stiffness matrix of crankshaft. However, most of these methods have a weak point to spend much time on three dimensional modeling and meshing work for crankshaft. Therefore. in this work. the stiffness matrix for the crankthrow is calculated using the energy method (Influence Coefficient Method, ICM) with the each mass having 6 degree of freedom. Its effectiveness is verified through the comparison with the stiffness matrix obtained by using the finite element method (FEM) and measured results for actual ships propulsion system.

규칙파중 항력을 고려한 TLP의 동적응답해석 (A Dynamic Response Analysis of Tension Leg Platforms Including Drag Forces in Regular Waves)

  • 하영록
    • 대한조선학회논문집
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    • 제45권3호
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    • pp.229-237
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    • 2008
  • For predicting the motion and structural responses of tension leg platforms(TLPs) in regular waves, a numerical scheme is introduced. The numerical approach in this paper is based on a combination of the three dimensional source distribution method and the finite element method. The hydrodynamic interactions among TLP members, such as columns and pontoons, are included in the motion and structural response analysis. The drag forces on the submerged slender members, which are proportional to the square of relative velocity, are newly included in order to estimate the responses of members with better accuracy. Comparisons with other's results verifies the works in this paper.

API & AISC 기준을 적용한 PolyEthylene (PE) 부유식 플랫폼의 구조 안전성 검토 (Estimation of Structural Safety for PolyEthylene (PE) Floating Platforms with API & AISC Standards)

  • 서광철;남택근;박주신
    • 해양환경안전학회지
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    • 제25권2호
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    • pp.237-243
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    • 2019
  • PE(PolyEthylene) 재료를 활용한 해상부유 구조물은 바다, 강 또는 호수의 인근이나 수역 내에 일정한 공간 부를 형성하는 부유식 구조물로, 현재는 그 용도가 소형선박 계류장뿐만 아니라 양식장, 수상 펜션, 해상부교 등에 다양하게 활용되고 있다. 이 제품군의 특징은 유연성이 뛰어나고 재활용할 수 있으며, 내약품성, 내후/내식성이 우수하다. 기존의 PE 제품군을 활용한 부유식 플랫폼은 한 개의 브래킷에 한 개의 부력관을 체결하는 단순한 구조를 구성하였고, 이로 인하여 사용자가 용도 변경 및 사용환경이 변경될 때는 적용하는데 제한이 있었다. 이에 본 연구에서는 한 개의 브래킷에 다양한 크기를 갖는 부력 관을 체결할 수 있는 구조를 개발하고, 제품의 구조 안전성을 유한요소법을 활용하여 검증하였다. 구조해석 결과, 브래킷 하단에 지름 500 mm 부력관 모델에서 충돌 하중에 대해 최대값을 나타내었으나, 허용기준을 만족하였다. 본 연구 결과를 기반으로 하여, 향후 다양한 형태의 부유체 플랫폼에 대한 구조 안전성 평가에 관한 연구가 가능하며, 관련 평가 기준에 대한 정립이 필요하다.

8m급 고속 활주선형 레저보트의 구조강도 평가 (Strength Assessment of 8m-class High-Speed Planing Leisure Boat)

  • 고대은
    • 한국산학기술학회논문지
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    • 제19권10호
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    • pp.418-423
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    • 2018
  • 최근 국내에서는 해양레저 산업의 활성화와 세계 해양레저 시장 진출을 위해 고부가가치 레저선박에 대한 연구개발이 활발히 진행되고 있다. 레저선박의 소재로는 물성이 우수하고 경량선체의 제작이 가능한 FRP(Fiber Reinforced Plastic) 복합재료가 널리 사용되고 있으며, FRP 복합재료로 제작되는 레저선박의 구조안전성 확보를 위한 설계기술 개발이 중요한 연구개발 목표중의 하나가 되고 있다. 본 연구에서는 RTM(Resin Transfer Molding) 공법으로 제작되는 FRP 복합재료 소재의 샌드위치 판넬을 주 구조부재로 하는 8m급 고속 활주선형 레저보트의 설계안에 대하여 구조강도를 평가하였다. 한국선급의 고속 경구조선 규칙 및 적용지침에 의거하여 선체 구조 안전성 검증을 위한 선저 슬래밍 충격하중 분포를 구하고, 샌드위치 구조의 복합재료 판을 등가의 굽힘 강성을 갖는 단일 재료의 등방성 판으로 치환하여 구조 해석을 수행하였다. 해석 결과를 실 제작 부재 시험편에 대한 강도 시험 결과와 비교한 결과 모든 내부 구조부재가 요구 강도를 충분히 만족함을 확인하였다.

잠수함 함미 트랜지션 링 구조 형상에 대한 고찰 (Review of the Structural Shape for Aft Transition Ring of Submarine)

  • 오도한;안남현
    • 해양환경안전학회지
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    • 제25권7호
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    • pp.936-944
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    • 2019
  • 보이지 않는 힘으로도 불리는 잠수함은 수중에서 활동하는 은밀성을 장점으로 대함전, 대잠전 및 핵심표적 타격 등의 임무를 수행하는 전략 수중 무기 체계로 심해에서 높은 수압을 견디며 작전을 수행할 수 있어야 한다. 이러한 관점에서 잠수함 압력 선체는 잠항 깊이에 상응하는 외부 수압에 저항하는 가장 중요한 체계로서 누수, 화재, 충격 및 폭발과 같은 위험으로부터 안전성을 확보함으로써 생존성을 높임과 동시에, 작전 수행 능력을 유지할 수 있게 해주는 강도를 확보하고 있어야 한다. 이를 위해서는 잠수함 압력 선체의 구조형상 설계가 초기에 수행되는 것이 합리적이다. 특히, 함미 원추부 구조물과 압력선체 평형부 및 함미 비압력선체를 연결하는 함미 트랜지션 링의 경우, 설계된 잠수함에 따라 다양한 형상을 띄고 있다. 본 구조물 설계를 위해서는 응력 흐름과 연결성을 고려한 설계뿐만 아니라 복잡한 형상이 기인한 구조물 제작 투입 시수 증가로 인한 원가 상승 또한 검토해야 한다. 따라서, 본 연구에서는 4가지 서로 다른 형상을 갖는 함미 트랜지션 링에 대해서 비선형 유한요소해석을 통한 구조 강도 검토와 더불어 함미 트랜지션 링 형상 복잡도에 따른 작업 일수 및 자재비 검토를 통해 경제성 측면에서의 적정성 검토를 수행하였으며, 검토된 4가지 형상 중 가장 합리적인 잠수함 함미 트랜지션 링 형상을 제안하였다.

IMO Type B 탱크 상부 Rolling Chock에 대한 시간영역 피로해석 (Time Domain Fatigue Analysis on the Upper Rolling Chock of IMO Type B Tank)

  • 박명진;박준석;원선일;최병기;박경원;백영민;김유일
    • 대한조선학회논문집
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    • 제53권5호
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    • pp.380-387
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    • 2016
  • Present research target to develop the procedure of long-term fatigue analysis of the structural details near the upper rolling chock of IMO type B tank by using the time domain modal analysis technique where both the contact and friction behavior can be accurately simulated. In order to perform the time domain analysis focused on the contact and friction, the entire model of the hull and tank was condensed with DOF reduction technique, which is obtained by transforming the global finite element model into its quasi-static modal coordinate. Modal analysis using the quasi-static deformation modes is chosen as a cost effective time domain simulation method and this is based on the fact that the structural response of the tank is quasi-static. Based on the developed cost effective time domain simulation method, the long-term fatigue analysis procedure for the structural details near the rolling chock and key of independent type tank is targeted to be established. The developed fatigue assessment procedure takes into account, wave induced stress and both contact and friction induced stress without loss of accuracy.

Transient energy flow in ship plate and shell structures under low velocity impact

  • Liu, Z.S.;Swaddiwudhipong, S.;Lu, C.;Hua, J.
    • Structural Engineering and Mechanics
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    • 제20권4호
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    • pp.451-463
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    • 2005
  • Structural members commonly employed in marine and off-shore structures are usually fabricated from plates and shells. Collision of this class of structures is usually modeled as plate and shell structures subjected to dynamic impact loading. The understanding of the dynamic response and energy transmission of the structures subjected to low velocity impact is useful for the efficient design of this type of structures. The transmissions of transient energy flow and dynamic transient response of these structures under low velocity impact are presented in the paper. The structural intensity approach is adopted to study the elastic transient dynamic characteristics of the plate structures under low velocity impact. The nine-node degenerated shell elements are adopted to model both the target and impactor in the dynamic impact response analysis. The structural intensity streamline representation is introduced to interpret energy flow paths for transient dynamic response of the structures. Numerical results, including contact force and transient energy flow vectors as well as structural intensity stream lines, demonstrate the efficiency of the present approach and attenuating impact effects on this type of structures.