• 제목/요약/키워드: Thin Hull

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파형해석을 이용한 선형개발법에 관한 연구(I) (Study on the Application of Wave Pattern Analysis to Hull Form Design (1))

  • 강신형;이영길;현범수
    • 한국기계연구소 소보
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    • 통권9호
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    • pp.169-181
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    • 1982
  • This paper presents three methods for ship hull form improvement on the basis of wave pattern analysis. These methods are primarily based on the assumption that a linear relation exists between the small difference of hull sections and the difference of the wave amplitude functions. The improved hull form of ship is made by superposing a thin hull form on that of a parent model. The first method use the simplification of framelines and Michell's Theory to the formula of wave resistance for superposed thin ship. The second method use tent functions and Michell's Theory to that. And the third is experimental method.

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스마트 Hull 구조물의 모달 해석 및 진동 제어 (Modal Analysis and Vibration Control of Smart Hull Structure)

  • 손정우;최승복
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2008년도 춘계학술대회논문집
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    • pp.299-304
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    • 2008
  • Dynamic characteristics of smart hull structure are investigated and active vibration control performance is evaluated. Dynamic model of smart hull structure with surface bonded Macro-fiber Composite (MFC) actuators is established by analytical method. Equations of motion of the host hull structure are derived based on Donnell-Mushtari equilibrium equations for a thin cylindrical shell. A general model for the interaction between hull structure and MFC actuator is included in the dynamic model. Modal analysis is then conducted and mode shapes and corresponding natural frequencies are investigated. After constructing of the optimal control algorithm, active vibration control performance of the proposed system is evaluated. It has been shown that structural vibration can be reduced effectively with proper control input.

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스마트 Hull 구조물의 모달 해석 및 진동 제어 (Modal Analysis and Vibration Control of Smart Hull Structure)

  • 손정우;최승복
    • 한국소음진동공학회논문집
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    • 제18권8호
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    • pp.832-840
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    • 2008
  • Dynamic characteristics of smart hull structure are investigated and active vibration control performance is evaluated. Dynamic model of smart hull structure with surface bonded macro-fiber composite(MFC) actuators is established by analytical method. Equations of motion of the host hull structure are derived based on Donnell-Mushtari equilibrium equations for a thin cylindrical shell. A general model for the interaction between hull structure and MFC actuator is included in the dynamic model. Modal analysis is then conducted and mode shapes and corresponding natural frequencies are investigated. After constructing of the optimal control algorithm, active vibration control performance of the proposed system is evaluated. It has been shown that structural vibration can be reduced effectively with proper control input.

선체 횡단면의 전단흐름 계산 프로그램 개발 (Development of Shear Flow Calculation Program for Ship Hull Transverse Section)

  • 노인식;이정렬;우정재;오영택
    • 대한조선학회논문집
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    • 제53권3호
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    • pp.188-194
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    • 2016
  • Accurate estimation of shear flows in thin-walled beam section is the key issue to evaluate shear stress distribution of ship hull transverse section under the shear forces acting on hull girder. It is regarded that the method using the warping functions obtained by finite element formulation is the state of the art of this field. Recently, however, IACS took effect the new version of CSR in which direct calculation process of shear flow was suggested. In the direct calculation process, shear flow of ship hull section can be obtained by the addition of determinate and indeterminate shear flows calculated respectively. So, in this paper, the shear flow evaluation codes based on the process proposed by IACS CSR and warping function based method were developed respectively. The calculated results of shear flows for the several examples of ship sections were compared with each other and considered in detail.

최소조파 저항성능을 갖는 최적 선수형상에 관한 연구 (A Study on the Optimal Forebody Forms for Minimum Wave Resistance)

  • 김성은
    • 대한조선학회논문집
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    • 제28권2호
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    • pp.28-39
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    • 1991
  • 조파저항과 마찰저항이 최소가 되는 선수형상을 구하기 위한 최적화문제에 관한 연구를 수행하였다. 선미부는 기존선형으로 고정하며 선수부만의 offsets을 설계변수로 하였다. 구하고자 하는 최적선형을 기존선형과 이에 대한 미소변화량으로 나누어 조파저항계산시 기존선형에는 Neumann-Kelvin 이론을 적용하고 미소변화량에는 thin ship 이론을 적용하였으며 마찰저항은 ITTC 1957 모형선-실선 상관곡선을 이용하였다. 선체표면을 모양함수(shape function)를 이용하여 근사시켰고, 이로부터 목적함수인 조파저항과 마찰저항은 offsets에 대한 2차식 형태로 표현되므로 선형구속조건을 적용하면 2차계획(quadratic programing)문제를 세울 수 있으며 complementary pivot method를 이용하여 해를 구하였다. 대상선형은 Series 60 $C_{B}$=0.6이고 Fn=0.289에서 최적화하였으며, 적절한 구속조건을 주어서 현실적인 최적선수형상을 구하고자 하였다. 본 방법으로 구한 최적선형은 thin ship 이론만을 이용하여 구한 선형과 비교할 때 설계속도 Fn=0.289에서 약간의 조파저항성능 개선(1.92%)를 가져왔다.

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얇은배 선형이론에 의한 진폭영수 조피저항 선측파고, 침하와 Trim의 계산 (Calculation of Wave Amplitude Functions, Wave Resistance, Wave Elevation Along the Hull, Sinkage and Trim by First-Order Thin-Ship Theory)

  • 강신형;이영길;현범수
    • 한국기계연구소 소보
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    • 통권9호
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    • pp.153-167
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    • 1982
  • From first-order thin-ship theory, we can obtain the" wave resistance, wave amplitude functions, wave elevation along the hull, sinkage and trim of a ship moving with constant speed into calm water. Generally, these calculations of ship is called with Michell’s Theory, and there is all the difference between calculated wave resistance and residual resistance from conventional wave resis¬tance test. But, these calculated results are important reference materials for initial hull form design procedure. Various calculated results for Shearer’ s Model, Wigley’s Model and Series 60 4210W Model have been calculated using this theory. The results are compared with the corresponding experimental values, and the agreement between theoretical and experimental values is considered satisfactory.

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2차좌굴을 포함하는 선체판의 대변형거동에 관한 연구 (A Study on the Large Deflection Behavior of Ship Plate with Secondary Buckling)

  • 고재용
    • Journal of Advanced Marine Engineering and Technology
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    • 제23권4호
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    • pp.565-573
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    • 1999
  • Hihg Tensile Steel enables to reduce the plate thickness comparing to the case when Mild Steel is used. From the economical view points this is very preferable since the reduction in the hull weight. however to use the High Tensile Steel effectively the plate thickness may become thin so that the occurrence of buckling is inevitable and design allowing plate buckling may be necessary. If the inplane stiffness of the plating decreases due to buckling the flexural rigidity of the cross sect6ion of a ship's hull also decreases. This may lead to excessive deflection of the hull girder under longitudinal bending. In these cases a precise estimation of plate's behavior after buckling is necessary and nonliner analysis of isolated and stiffened plates is required for structural sys-tem analysis. In this connection this paper discusses nonlinear behaviour of thin plate under thrust. Based on the analytical method elastic large deflection analysis of isolated plate is perform and simple expression are derived to evaluated the inplane rigidity of plates subjected to uniaxial compression.

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면내압축하중을 받는 선체판의 비선형거동에 관한 연구 (A Study on the Nonlinear Behavior of Plate under Thrust)

  • 고재용
    • 한국항해항만학회:학술대회논문집
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    • 한국항해항만학회 1996년도 The Korean Institute of Navigation 1996년도 한·중 국제학술 심포지움 및 추계학술발표회 논문집
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    • pp.95-110
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    • 1996
  • High Tensile Steel enables to reduce the plate thickness comparing to the case when Mild Steel is used. From the economical view point this is very preferable since the reduction in the hull weight. However to use the High Tensile Steel effectively the plate thickness may become thin so that the occurrence of buckling is inevitable and design allowing plate buckling may be necessary. If the inplane stiffness of the plating decreases due to buckling, buckling may be necessary. If the inplane stiffness of the plating decreases due to buckling the flexural rigidity of the cross section of a ship's hull also decreases. this may lead to excessive deflection of the hull girder under longitudinal bending. In these cases a precise estimation of plate's behavior after buckling is necessary and nonlinear analysis of isolated and stiffened plates is required for structural system analysis. In this connection this paper discusses nonlinear behaviour of thin plate under thrust. Based on the analytical method elastic large deflection analysis of isolated plate is perform and simple expression are derived to evaluate the inplane rigidity of plates subjected to uniaxial compression.

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항복강도에 따른 선체판의 탄소성거동에 관한 연구 (A Study on the Elasto-Plasticity Behaviour According to the Yield Strength of a Ship's Plate)

  • 고재용;박주신
    • 한국항해항만학회:학술대회논문집
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    • 한국항해항만학회 2003년도 춘계공동학술대회논문집
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    • pp.27-31
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    • 2003
  • 최근 박판두재인 고장력강이 구조물에 폭넓게 사용됨으로서 좌굴이 발생하기 쉽다. 특히 고장력강을 사용하는 선체구조물에서는 좌굴은 중요한 설계기준이 되고 있다. 따라서 좌굴발생 후 거동을 정확하게 파악하는 것은 선체구조의 안정성에 중요하다. 본 연구에서는 선체의 대표적인 구조물인 판을 대상으로 각 선급 룰에서 좌굴강도식의 기준으로 삼고 있는 단순지지조건에서의 여러 가지 항복강도에 따라 압축하중을 받는 박판구조물의 초기좌굴 후 거동과 2차좌굴 후 거동에 대해서 규명하였다. 해석방법으로는 범용 유한요소해석 프로그램인 ANSYS를 이용하였고 2차좌굴과 같은 복잡한 비선형거동을 해석하기 위하여 호장증분법(Arc-length method)을 사용하였다.

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A Strength Analysis of a Hull Girder in a Rough Sea

  • Kim, Sa-Soo;Shin, Ku-Kyun;Son, Sung-Wan
    • Selected Papers of The Society of Naval Architects of Korea
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    • 제2권1호
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    • pp.79-105
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    • 1994
  • A ship in waves is suffered from the various wave loads that comes from its motion throughout its life. Because these loads are dynamic, the analysis of a ship structure must be considered as the dynamic problem precisely. In the rationally-based design, the dynamic structural analysis is carried out using dynamic wave loads provided from the results of the ship motion calculation as a rigid body. This method is based on the linear theory assumed low wave height and small amplitude of motion. But at the rough sea condition, high wave height, compared with ship's depth, induce the large ship motion, so the ship section configuration under waterline is rapidly changed at each time. This results in a non-linear problem. Considering above situation in this paper, a strength analysis method is introduced for the hull girder among waves considering non-linear hydrodynamic forces. This paper evaluates the overall or primary level of the ship structural dynamic loading and dynamic response provided from the non-linear wave forces, and bottom flare impact forces by momentum slamming theory. For numerical calculation a ship is idealized as a hollow thin-walled box beam using thin walled beam theory and the finite element method is used. This method applied to a 40,000 ton double hull tanker and attention is paid to the influence of the response of the ship's speed, wave length and wave height compared with the linear strip theory.

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