• 제목/요약/키워드: shear interaction

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단부 파쇄형 휨 보강에 따른 철근콘크리트 전단벽 휨 성능 평가 (Evaluation of Flexural Performance of Reinforced Concrete Shear Walls According to Flexural Retrofit by Wall End Excavating)

  • 조의진;김수용;배백일;최창식
    • 대한건축학회논문집:구조계
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    • 제36권4호
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    • pp.123-133
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    • 2020
  • The purpose of this study is to analyze the method of retrofitting flexural strength and the flexural performance of retrofitted shear walls. There are various ways to reinforce the flexural strength of reinforced concrete shear wall structural systems that have already been built, in the case of that, the external force is increased, and the internal force is insufficient. However, there are various problems, such as excessive flexural stiffness after reinforcement and increasing the thickness and length of the wall. We have developed a retrofit method to solve these problems. The wall end is excavated to place the required vertical rebars, and concrete is poured after placing rebars. This is the same concept as creating wall end boundary elements later on. We also studied the anchorage method of reinforcement and the interaction method between the retrofitting end and the existing wall. The flexural test results for the reinforced concrete shear wall using the studied retrofit method can be predicted according to the sectional analysis and FEM analysis, and there are differences in the plastic hinge length, crack propagation, stiffness degradation and energy dissipation due to the bending depending on the vertical rebar ratio of wall end.

고강도 재료가 사용된 철근콘크리트 부재의 전단파괴모드 (Shear Failure Modes of Reinforced Concrete Members with High-Strength Materials)

  • 이정윤;김경원
    • 한국공간구조학회논문집
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    • 제6권2호
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    • pp.53-60
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    • 2006
  • 고강도 재료(고강도 콘크리트, 고강도 철근)가 사용된 철근콘크리트 부재의 전단파괴모드는 보통강도 재료를 사용한 부재의 전단파괴모드와 상이한 결과를 나타낼 수 있다. 고강도 재료가 사용될 경우에 구조설계기준식에서 요구하는 전단보강철근이 먼저 항복한 후에 콘크리트가 압축파괴하는 것과는 다르게, 철근이 항복하기 이전에 콘크리트가 압축파괴할 수 있다. 이 논문에서는 고강도 재료가 사용된 철근콘크리트 부재의 최대철근비를 균형파괴시의 재료의 응력 및 변형률 상태를 이용하여 계산하였다. 제안식에서 최대철근비는 콘크리트의 압축강도와 전단보강철근의 상호관계에 의하여 변화하였다. 제안식은 97개의 철근콘크리트 부재에 대한 실험결과와 비교되었다. 실험결과 및 계산결과는 철근콘크리트 부재의 파괴모드가 전단보강철근의 양과 콘크리트의 압축강도와 밀접한 관계가 있음을 나타내었다.

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Investigation of a fiber reinforced polymer composite tube by two way coupling fluid-structure interaction

  • Daricik, Fatih;Canbolat, Gokhan;Koru, Murat
    • Coupled systems mechanics
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    • 제11권4호
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    • pp.315-333
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    • 2022
  • Fluid-Structure Interaction (FSI) modeling is highly effective to reveal deformations, fatigue failures, and stresses on a solid domain caused by the fluid flow. Mechanical properties of the solid structures and the thermophysical properties of fluids can change under different operating conditions. In this study, we investigated the interaction of [45/-45]2 wounded composite tubes with the fluid flows suddenly pressurized to 5 Bar, 10 Bar, and 15 Bar at the ambient temperatures of 24℃, 66℃, and 82℃, respectively. Numerical analyzes were performed under each temperature and pressure condition and the results were compared depending on the time in a period and along the length of the tube. The main purpose of this study is to present the effects of the variations in fluid characteristics by temperature and pressure on the structural response. The variation of the thermophysical properties of the fluid directly affects the deformation and stress in the material due to the Wall Shear Stress (WSS) generated by the fluid flow. The increase or decrease in WSS directly affected the deformations. Results show that the increase in deformation is more than 50% between 5 Bar and 10 Bar for the same operating condition and it is more than 100% between 5 Bar and 15 Bar by the increase in pressure, as expected in terms of the solid mechanics. In the case of the increase in the temperature of fluid and ambient, the WSS and Von Mises stress decrease while the slight increases of deformations take place on the tube. On the other hand, two-way FSI modeling is needed to observe the effects of hydraulic shock and developing flow on the structural response of composite tubes.

Effect of static and dynamic impedance functions on the parametric analysis of SSI system

  • Maroua Lagaguine;Badreddine Sbarta
    • Coupled systems mechanics
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    • 제13권4호
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    • pp.293-310
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    • 2024
  • This paper investigates the dynamic response of structures during earthquakes and provides a clear understanding of soil-structure interaction phenomena. It analyses various parameters, comprising ground shear wave velocity and structure properties. The effect of soil impedance function form on the structural response of the system through the use of springs and dashpots with two frequency cases: independent and dependent frequencies. The superstructure and the ground were modeled linearly. Using the substructure method, two different approaches are used in this study. The first is an analytical formulation based on the dynamic equilibrium of the soil-structure system modeled by an analog model with three degrees of freedom. The second is a numerical analysis generated with 2D finite element modeling using ABAQUS software. The superstructure is represented as a SDOF system in all the SSI models assessed. This analysis establishes the key parameters affecting the soil-structure interaction and their effects. The different results obtained from the analysis are compared for each studied case (frequency-independent and frequency-dependent impedance functions). The achieved results confirm the sensitivity of buildings to soil-structure interaction and highlight the various factors and effects, such as soil and structure properties, specifically the shear wave velocity, the height and mass of the structure. Excitation frequency, and the foundation anchoring height, also has a significant impact on the fundamental parameters and the response of the coupled system at the same time. On the other hand, it have been demonstrated that the impedance function forms play a critical role in the accurate evaluation of structural behavior during seismic excitation. As a result, the evaluation of SSI effects on structural response must take into account the dynamic properties of the structure and soil accordingly.

풍화암에서 실시된 터널굴착으로 인한 단독말뚝 및 군말뚝의 거동 (The Response of a Single Pile and Pile Groups to Tunnelling Performed in Weathered Rock)

  • 이철주
    • 대한토목학회논문집
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    • 제32권5C호
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    • pp.199-210
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    • 2012
  • 본 연구에서는 3차원 탄-소성 유한차분해석을 통해 기존재하는 단독말뚝, $3{\times}3$$5{\times}5$ 군말뚝의 바로 아래 풍화암 지반에서 실시된 터널시공으로 인한 말뚝의 거동을 분석하였다. 수치해석에서는 터널굴착으로 인한 말뚝의 거동을 규명하기 위하여 지반/말뚝의 침하 및 전단응력전이(shear stress transfer) 메커니즘을 심도있게 분석하였다. 터널굴착으로 유발된 지반의 침하와 말뚝-지반 사이 경계면에서의 상대변위 발생으로 인해 말뚝에 작용하는 전단응력 및 축력의 분포가 매우 크게 변화하였다. 계산된 결과에 의하면 터널굴착으로 인해 말뚝의 두부로부터 말뚝길이의 약 80%에 해당되는 위치까지는 상향의 전단응력이 발생하였고, 그 하부에서는 하향의 전단응력이 발생하였다. 이로 인해 말뚝의 축력이 터널의 굴착에 따라 지속적으로 감소하고, 순수한 터널의 시공으로 인하여 말뚝에는 인장력이 발생하였는데 이로 인해 말뚝에는 최대 $0.36P_a$의 인장력이 발생하였다, 여기서 $P_a$는 터널굴착이전에 말뚝두부에 작용하는 설계하중이다. 말뚝의 거동은 경계면에서의 전단강도 발현 정도에 가장 큰 영향을 받는 것으로 나타났다. 군말뚝의 경우 일반적으로 말뚝의 숫자가 증가할수록 터널의 시공에 의해 말뚝의 침하가 증가하는 것으로 나타났으며, 이와는 반대로 말뚝의 축력변화는 군효과(shielding effect)로 인해 단독말뚝의 경우에 비해 작은 것으로 분석되었다. 터널굴착으로 인한 말뚝침하의 증가로 인한 겉보기지지력(apparent pile capacity) 감소는 단독말뚝에 비해 군말뚝에서 두드러지는 것으로 분석되었다.

단독말뚝의 측면으로 시공되는 터널에 의한 말뚝의 거동 연구 (A Study on the Behaviour of a Single Pile to Adjacent Tunnelling Conducted in the Lateral Direction of the Pile)

  • 이철주
    • 한국지반환경공학회 논문집
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    • 제12권1호
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    • pp.41-50
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    • 2011
  • 본 연구에서는 단독말뚝의 측면에서 시공되는 터널에 의한 말뚝의 거동에 대하여 3차원 수치해석을 통하여 분석하였다. 수치해석을 통하여 터널-말뚝-지반의 상호거동에 대한 심도 있는 분석을 실시하였다. 수치해석을 통해 말뚝의 침하, 말뚝과 주변지반 사이의 상대변위, 전단응력 및 말뚝의 축력변화를 고찰하였다. 특히 터널굴착에 의한 전단응력의 전이과정에 대한 심도 있는 분석을 실시하였다. 터널굴착에 의한 말뚝과 인근지반에서의 상대변위 변화로 인하여 말뚝에 작용하는 전단응력 및 축력의 분포가 변하게 되는 것으로 나타났다. 터널 중심부의 상부에서는 하향의 전단응력이 발생하는 반면(Z/L=0.0-0.7~0.8), 그 하부에서는 (Z/L=0.7~0.8-1.0) 상향의 전단응력이 발생하여 말뚝에 압축력이 발생된다, 이때 Z는 임의의 심도, L은 말뚝의 길이다. 터널굴착이 종료된 후 말뚝에는 최대 $0.475P_a$의 압축력이 발생하였다, 이때 $P_a$는 말뚝의 설계지지력이다. 수치해석을 통해서 도출된 터널굴착이 말뚝 거동에 미치는 영향에 대해 상세히 고찰하였다.

A closed-form solution for a fluid-structure system: shear beam-compressible fluid

  • Keivani, Amirhossein;Shooshtari, Ahmad;Sani, Ahmad Aftabi
    • Coupled systems mechanics
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    • 제2권2호
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    • pp.127-146
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    • 2013
  • A closed-form solution for a fluid-structure system is presented in this article. The closed-form is used to evaluate the finite element method results through a numeric example with consideration of high frequencies of excitation. In the example, the structure is modeled as a cantilever beam with rectangular cross-section including only shear deformation and the reservoir is assumed semi-infinite rectangular filled with compressible fluid. It is observed that finite element results deviate from the closed-form in relatively higher frequencies which is the case for the near field earthquakes.

거칠기 위치에 따른 이중관 내의 난류유동 (Turbulent flow in annuli depending on the position of roughness)

  • 안수환;김경천
    • 대한기계학회논문집B
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    • 제21권7호
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    • pp.891-899
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    • 1997
  • This paper presents the results of a detailed experimental examination of fully developed asymmetric flows between annular tubes with square-ribbed surface roughness. The main emphasis of the research has been on establishing the turbulence structure, particularly in the central region of the channel where the two dissimilar wall flows interact. Measurements have included profiles of time mean velocities, turbulence intensities, turbulent shear stresses, triple velocity correlations, skewness, and flatness. The region of greatest interaction is characterized by strong diffusional transport of turbulent shear stress and kinetic energy from rough toward the smooth wall region, giving rise to an appreciable separation between the planes of zero shear stresses depending on positions of roughness on the walls.

Strain localization and failure load predictions of geosynthetic reinforced soil structures

  • Alsaleh, Mustafa;Kitsabunnarat, Akadet;Helwany, Sam
    • Interaction and multiscale mechanics
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    • 제2권3호
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    • pp.235-261
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    • 2009
  • This study illustrates the differences between the elasto-plastic cap model and Lade's model with Cosserat rotation through the analyses of two large-scale geosynthetic-reinforced soil (GRS) retaining wall tests that were brought to failure using a monotonically increasing surcharge pressure. The finite element analyses with Lade's model were able to reasonably simulate the large-scale plane strain laboratory tests. On average, the finite element analyses gave reasonably good agreement with the experimental results in terms of global performances and shear band occurrences. In contrast, the cap model was not able to simulate the development of shear banding in the tests. In both test simulations the cap model predicted failure loads that were substantially less than the measured ones.

환형제트 난류유동에 대한 수치해석 연구 (NUMERICAL INVESTIGATION OF TURBULENT FLOW FROM AN ANNULAR JET)

  • 김정우
    • 한국전산유체공학회지
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    • 제18권4호
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    • pp.47-52
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    • 2013
  • In the present study, the turbulent flow from an annular jet is investigated by using large eddy simulation. Particularly, the effect of the ratio of the inner and outer diameters is one of the main interests of this study. The instantaneous fields presented in this paper showed that behind the jet exit the backflow region, as well known in literatures, exists, and its detailed behavior depends on the ratio of the inner and outer diameters ($D_1/D_2$). The dependence on $D_1/D_2$ is attributed to the different shear layer development according to $D_1/D_2$. At small $D_1/D_2$, the development of the outer shear layer is similar to that from the circular jet. However, with increasing $D_1/D_2$, the interaction between the outer and inner shear layers becomes strong, resulting in fast transition to turbulence.