• 제목/요약/키워드: Outriggers

검색결과 39건 처리시간 0.019초

콘크리트 전단벽 아웃리거의 두께 산정 (Determination of the Thickness of RC Shear Wall Outriggers)

  • 이재철
    • 한국전산구조공학회논문집
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    • 제21권1호
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    • pp.103-111
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    • 2008
  • 본 연구의 목적은 초고층건물의 콘크리트 전단벽 아웃리거 두께를 산정하는 방법을 찾는 것이다. 이를 위해서 먼저 60층 규모의 초고층건물 해석모델을 생성하고 구조해석을 수행하였다. 다음에는 해석결과를 이용하여 아웃리거로 인한 하중 전달방식과 변형 양상의 변화를 고찰하고 이를 바탕으로 아웃리거 두께 산정식을 제안하였다. 마지막으로 해석모델을 다양하게 변화시켜 제안식의 타당성을 검토하였다.

Optimum position for outriggers of different materials in a high- rise building

  • Nikhil Y. Mithbhakare;Popat D. Kumbhar
    • Earthquakes and Structures
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    • 제25권5호
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    • pp.359-367
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    • 2023
  • High-rise structures are considered as symbols of economic power and leadership. Developing countries like India are also emerging as centers for new high-rise buildings (HRB). As the land is expensive and scarce everywhere, construction of tall buildings becomes the best solution to resolve the problem. But, as building's height increases, its stiffness reduces making it more susceptible to vibrations due to wind and earthquake forces. Several systems are available to control vibrations or deflections; however, outrigger systems are considered to be the most effective systems in improving lateral stiffness and overall stability of HRB. In this paper, a 42-storey RCC HRB is analyzed to determine the optimum position of outriggers of different materials. The linear static analysis of the building is performed with and without the provision of virtual outriggers of reinforced cement concrete (RCC) and pre-stressed concrete (PSC) at different storey levels by response spectrum method using finite element based Extended3D Analysis of building System (ETABS) software for determining responses viz. storey displacement, base shear and storey drift for individual models. The maximum allowable limit and percentage variations in earthquake responses are verified using the guidelines of Indian seismic codes. Results indicate that the outriggers contribute in significantly reducing the storey displacement and storey drift up to 28% and 20% respectively. Also, it is observed that the PSC outriggers are found to be more efficient over RCC outriggers. The optimum location of both types of outriggers is found to be at the mid height of building.

Mechanical Amplification of Relative Movements in Damped Outriggers for Wind and Seismic Response Mitigation

  • Mathias, Neville;Ranaudo, Francesco;Sarkisian, Mark
    • 국제초고층학회논문집
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    • 제5권1호
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    • pp.51-62
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    • 2016
  • The concept of introducing viscous damping devices between outriggers and perimeter columns in tall buildings to provide supplementary damping and improve performance, reduce structural costs, and increase available usable area was developed and implemented by Smith and Willford (2007). It was recognized that the relative vertical movement that would occur between the ends of outriggers and columns, if they were not connected, could be used to generate damping. The movements, and correspondingly damping, can potentially be significantly increased by amplifying them using simple "mechanisms". The mechanisms also make it possible to increase the number of available dampers and thus further increase supplementary damping. The feasibility of mechanisms to amplify supplementary damping and enhance structural performance of tall, slender buildings is studied with particular focus on its efficacy in improving structural performance in wind loads.

아웃리거의 중력하중 조절 효과 분석을 위한 사례연구 (Case Studies for Anlayzing Effects of Outriggers on Gravity Load Managements)

  • 강수민;엄태성;김재요
    • 한국전산구조공학회논문집
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    • 제23권3호
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    • pp.255-266
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    • 2010
  • 초고층 건물에서 아웃리거를 이용한 횡력저항시스템이 자주 사용되고 있다. 아웃리거가 외부 기둥과 내부 코어를 연결함으로써 외부 기둥이 횡력저항시스템에 참여할 수 있어 구조적 저항능력이 향상될 수 있다. 그러나 아웃리거는 횡력 뿐만 아니라 중력하중의 조절에도 기여할 수 있다. 하중을 메가 기둥으로 전이시키거나 기둥, 벽체, 파일 등의 연직 부재들 간에 중력하중을 균등하게 분포시키며, 기초 시스템에서의 부등침하를 최소화하기 위하여 중력하중의 흐름이 아웃리거 부재에 의하여 변경될 수 있다. 본 연구에서는 100층 이상의 초고층 사례들에 대한 전산구조해석을 통하여 중력하중 조절에 대한 아웃리거의 효과를 분석한다. 아웃리거 유무에 따른 3차원 모델의 구조해석이 수행되며, 기둥과 파일에서의 중력하중 분포 및 기초 침하가 분석된다. 또한, 완공 단계 뿐만 아니라 시공 단계에서의 중력하중 조절에 대한 아웃리거의 효과도 분석된다.

Weight and topology optimization of outrigger-braced tall steel structures subjected to the wind loading using GA

  • Nouri, Farshid;Ashtari, Payam
    • Wind and Structures
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    • 제20권4호
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    • pp.489-508
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    • 2015
  • In this paper, a novel methodology is proposed to obtain optimum location of outriggers. The method utilizes genetic algorithm (GA) for shape and size optimization of outrigger-braced tall structures. In spite of previous studies (simplified methods), current study is based on exact modeling of the structure in a computer program developed on Matlab in conjunction with OpenSees. In addition to that, exact wind loading distribution is calculated in accordance with ASCE 7-10. This is novel since in previous studies wind loading distributions were assumed to be uniform or triangular. Also, a new penalty coefficient is proposed which is suitable for optimization of tall buildings. Newly proposed penalty coefficient improves the performance of GA and results in a faster convergence. Optimum location and number of outriggers is investigated. Also, contribution of factors like central core and outrigger rigidity is assessed by analyzing several design examples. According to the results of analysis, exact wind load distribution and modeling of all structural elements, yields optimum designs which are in contrast of simplified methods results. For taller frames significant increase of wind pressure changes the optimum location of outriggers obtained by simplified methods. Ratio of optimum location to the height of the structure for minimizing weight and satisfying serviceability constraints is not a fixed value. Ratio highly depends on height of the structure, core and outriggers stiffness and lateral wind loading distribution.

Optimum location of second outrigger in RC core walls subjected to NF earthquakes

  • Beiraghi, Hamid;Hedayati, Mansooreh
    • Steel and Composite Structures
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    • 제38권6호
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    • pp.671-690
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    • 2021
  • Seismic responses of RC core wall with two outriggers are investigated in this study. In the models analyzed here, one of the outriggers is fixed at the top of the building and the second is placed at different levels along the height of the system. Each of the systems resulting from the placement of the outrigger at different locations is designed according to the prescriptive codes. The location of the outrigger changes along the height. Linear design of all the structures is accomplished by using prescriptive codes. Buckling restrained braces (BRBs) are used in the outriggers and forward directivity near fault and far fault earthquake record sets are used at maximum considered earthquake (MCE) level. Results from nonlinear time history analysis demonstrate that BRB outriggers can change the seismic responses like force distribution and deformation demand of the RC core-walls over the height and lead to the new plastic hinge arrangement over the core-wall height. Plasticity extension in the RC core wall occurs at the base as well as adjacent to the outrigger levels. Considering the maximum inter-story drift ratio (IDR) demand as an engineering parameter, the best location for the second outrigger is at 0.75H, in which the maximum IDR at the region upper the second outrigger level is approximately equal to the corresponding value in the lower region.

Study on Structural Efficiency of Super-Tall Buildings

  • Jianlong, Zhou;Lianjin, Bao;Peng, Qian
    • 국제초고층학회논문집
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    • 제3권3호
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    • pp.185-190
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    • 2014
  • Based on a 405m high super-tall building, the influence of outriggers, different shapes and layouts of structural plane and elevation on structural efficiency under lateral forces is studied in this paper. A calculation formula concerning the structural efficiency is given. The study shows that structural efficiency can be improved by triangulating the plane shape, using mega columns, the peripherization of the plane layout, tapering the elevation shape and setting bracing structure in the elevation. The arrangement of outriggers between the core tube and flange frame can reduce the shear lag effect in order to improve structural efficiency. The essence of improving structural efficiency of super-tall buildings is to maximize the plane bending stiffness and to make its deformation approach to plane section assumption.

Seismic assessment of thin steel plate shear walls with outrigger system

  • Fathy, Ebtsam
    • Structural Engineering and Mechanics
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    • 제74권2호
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    • pp.267-282
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    • 2020
  • The seismic performance and failure modes of the dual system of moment resisting frames and thin steel plate shear walls (TSPSWs) without and with one or two outrigger trusses are studied in this paper. These structural systems were utilized to resist vertical and lateral loads of 40-storey buildings. Detailed Finite element models associated with nonlinear time history analyses were used to examine seismic capacity and plastic mechanism of the buildings. The analyses were performed under increased levels of earthquake intensities. The models with one and two outriggers showed good performance during the maximum considered earthquake (MCE), while the stress of TSPSWs in the model without outrigger reached its ultimate value under this earthquake. The best seismic capacity was in favour of the model with two outriggers, where it is found that increasing the number of outriggers not only gives more reduction in lateral displacement but also reduces stress concentration on thin steel plate shear walls at outrigger floors, which caused the early failure of TSPSWs in model with one outrigger.

Hull Form Optimization of a Small Trimar:an by Model Testing

  • Oh Se-Myun;Lee Seung-Hee;Lee Young-Gill
    • Journal of Ship and Ocean Technology
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    • 제9권3호
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    • pp.14-22
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    • 2005
  • A 12 m long G/T 4.99 Class Trimaran is now under development at the Center for Transportation System of the Yellow Sea (CTYS) before deployed as a pleasure fishing boat along the west coast of Korean peninsula. The boats will be made of fiber reinforced plastics and equipped with a 360 hp diesel engine and a water jet propulsion system to propel the ship to reach maximum speed of 25knots after fully loaded. Model tests for hull form development of the Trimaran have been done at the towing tank of the Inha University. The influence of the spacing between main hull and outriggers and the longitudinal location of the outriggers have been carefully examined to find the optimal size and locations of the outriggers to improve both the resistance characteristics, and the results are reported in the present paper.

Dynamic Characteristics and Responses of Tall Building Structures with Double Negative Stiffness Damped Outriggers

  • Sun, Feifei;Duan, Ningling;Wang, Meng;Yang, Jiaqi
    • 국제초고층학회논문집
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    • 제10권3호
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    • pp.229-242
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    • 2021
  • Dynamic characteristics of tall building structures with double negative stiffness damped outriggers (2NSDO) are parametrically studied using the theoretical formula. Compared with one negative stiffness damped outrigger (1NSDO), 2NSDO can achieve a similar maximal modal damping ratio with a smaller negative stiffness ratio. Besides, the 2NSDO can improve the maximum achievable damping ratio to about 30% with less consumption of an outrigger damping coefficient compared with the double conventional damped outriggers (2CDO). Besides, the responses of structures with 2NSDO under fluctuating wind load are investigated by time-history analysis. Numerical results show that the 2NSDO is effective in reducing structural acceleration under fluctuating wind load, being more efficient than 1NSDO.