• Structural Engineering and Mechanics
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• 제55권1호
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• pp.205-228
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• 2015

The results of a numerical investigation pertaining to the hysteretic behaviour of concrete filled steel tubular (CFT) column to I-beam connections are discussed in detail. Following the verification of the numerical results against the available experimental tests, the nonlinear finite element (FE) analysis was implemented to evaluate the effects of different parameters including the column axial load, beam lateral support, shape and arrangement of stiffeners, stiffness of T-stiffeners, and the number of shear stiffeners. Pursuing this objective, an external CFT column to beam connection, tested previously, was selected as the case-study. The lateral forces on the structure were simulated, albeit approximately, using an incremental cyclic loading reversal applied at the beam tip. The results were compared in terms of hysteretic load-displacement curves, stress distributions in connection, strength, rotation, and energy dissipation capacity. It was shown that external T-stiffeners combined with internal shear stiffeners play an important role in the hysteretic performance of CFT columns to I-beam connections.

• Steel and Composite Structures
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• 제42권3호
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• pp.363-373
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• 2022

This paper presents an experimental and a numerical investigation of a H-beam - composite box column joint fabricated with two new inner diaphragms and a continuous inner diaphragm. The main objective of the current research project is to investigate the structural performance of the newly developed inner diaphragms under a cyclic loading protocol. Hysteretic behaviour of the composite joints is analysed to investigate the structural performance of the new and continuous inner diaphragms. This paper compares the result of the finite element (FE) models with the new and continuous inner diaphragms against their counterpart experimental results. To produce a design criterion for the newly developed inner diaphragms, yielding or failure area of the inner diaphragms under tensile stress is analysed from the FE results.

• 한국전산구조공학회논문집
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• 제25권6호
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• pp.513-523
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• 2012

본 연구는 횡력저항시스템별로 프로토타입 모델을 선정하고 지진지역과 비정형성에 따른 내진성능 영향력을 검토하였다. 프로토타입 모델은 다이아그리드 시스템과 브레이스튜브 시스템 그리고 아웃리거 시스템을 선정하였다. 또한 각 횡력저항시스템별 평면 비틀림 각도를 $0^{\circ}$, $1^{\circ}$($1.5^{\circ}$), $2^{\circ}$($3^{\circ}$) 씩 변화하여 내진성능을 검토하였다. 지진지역은 강진지역(LA), 약진지역(Boston)을 선정하였다. 선형응답해석은 프로토타입 모델의 풍변위, 고유주기를 검토하였다. Non-Linear Response History(NLRH) 해석에서는 밑면전단력, 층간변위비를 검토하였다. 검토결과 다이아그리드 시스템과 브레이스튜브 시스템 그리고 아웃리거 시스템 모두 평면 비틀림 각도가 증가할수록 건물 전체의 강성이 줄어들었다. 또한 평면 비틀림 각도가 증가할수록 풍변위와 고유주기 결과가 증가하고 건물 전체의 강성이 줄어들어 밑면전단력이 감소하였다. 끝으로, NLRH 해석 결과 강진과 약진지역 모두 Tall Building Initiative(TBI)의 Maximum Considered Earthquake(MCE)수준의 층간변위비 제한값 0.045를 만족하여 허용범위내의 내진성능을 만족하고 있는 것으로 나타났다.

• Structural Engineering and Mechanics
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• 제60권3호
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• pp.507-527
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• 2016

The use of shape memory alloys (SMAs) has been seriously considered in seismic engineering due to their capabilities, such as the ability to tolerate cyclic deformations and dissipate energy. Five 3-D extended end-plate connection models have been created, including one conventional connection and four connections with Nitinol bolts of four different prestress forces. Their cyclic behaviors have been investigated using the finite element method software ANSYS. Subsequently, the moment-rotation responses of the connections have been derived by subjecting them to cyclic loading based on SAC protocol. The results obtained in this research indicate that the conventional connections show residual deformations despite their high ductility and very good energy dissipation; therefore, they cannot be repaired after loading. However, while having good energy dissipation and high ductility, the connections equipped with Nitinol bolts have good recentering capability. Moreover, a connection with the mentioned specifications has been modeled, except that only the external bolts replaced with SMA bolts and assessed for seismic loading. The suggested connection shows high ductility, medium energy dissipation and very good recentering. The main objective of this research is to concentrate the deformations caused by cyclic loading on the connection in order to form super-elastic hinge in the connection by the deformations of the shape memory alloy bolts.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 2003년도 가을 학술발표회 논문집
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• pp.509-516
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• 2003

In tile design of base isolation system for building and short-span bridge, shift of the natural period of the structure is main objective. But, most long-span bridges such as a cable-stayed bridges have a number of long-period modes due to their flexibility and small structural damping. thus the design concept of base isolation system for building and short-span brigde may be difficult to use directly to these structures. However, the effectiveness of LRB for cable-stayed bridges is indicated by Ali and Abdel-Ghaffar. In this study, the design procedure and guidelines of LRB for a seismically excited cable-stayed bridge are investigated. The design properties of LRB are chosen that the design index(DI) is minimized or little changed for variation of properties. This result show that the stiffer rubber and bigger lead core size are need to cable-stayed bridges. And the seismic performance of designed LRB is also investigated. The consequences show that the perforamnce of designed LRB is better than that of Naeim-Kelly mettled designning LRB for general building structures. Moreover, the design properties of LRB are researched to several diffrent dominant frequency of earthquake. The results present that the plastic and elastic stiffness of LRB are affected by the dominant frequency of earthquake.

• 한국지진공학회논문집
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• 제26권1호
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• pp.39-48
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• 2022

Many piping systems installed in the power plant are directly related to the safety and operation of the plant. Various dampers have been applied to the piping system to reduce the damage caused by earthquakes. In order to reduce the vibration of the piping system, this study developed a steel coil damper (SCD) with a straightforward structure but excellent damping performance. SCD reduces the vibration of the objective structure by hysteretic damping. The new SCD damper can be applied to high-temperature environments since it consists of steel members. The paper introduces a design method for the elastoplastic coil spring, which is the critical element of SCD. The practical applicability of the design procedure was validated by comparing the nonlinear force-displacement curves calculated by design equations with the results obtained from nonlinear finite element analysis and repeated loading test. It was found that the designed SCD's have a damping ratio higher than 25%. In addition, this study performed a set of seismic tests using a shaking table with an existing piping system to verify the vibration control capacity on the piping system by SCD. Test results prove that the SCD can effectively control the displacement vibration of the piping system up to 80%.

• Earthquakes and Structures
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• 제9권4호
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• pp.831-849
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• 2015

Seismic-design procedures for walls require that the confinement in the critical (plastic hinge) regions should extend over a length in the compression zone of the cross section at the wall base where concrete strains in the Ultimate Limit State (ULS) exceed the limit of 0.0035. In a performance-based framework, confinement is linked to required curvature ductility so that the drift demand at the performance point of the structure for the design earthquake may be met. However, performance of flexural walls in the recent earthquakes in Chile (2010) and Christchurch (2011) indicates that the actual compression strains in the critical regions of many structural walls were higher than estimated, being responsible for several of the reported failures by toe crushing. In this study, the method of estimating the confined region and magnitude of compression strain demands in slender walls are revisited. The objective is to account for a newly identified kinematic interaction between the normal strains that arise in the compression zone, and the lumped rotations that occur at the other end of the wall base due to penetration of bar tension yielding into the supporting anchorage. Design charts estimating the amount of yield penetration in terms of the resulting lumped rotation at the wall base are used to quantify the increased demands for compression strain in the critical section. The estimated strain increase may exceed by more than 30% the base value estimated from the existing design expressions, which explains the frequently reported occurrence of toe crushing even in well confined slender walls under high drift demands. Example cases are included in the presentation to illustrate the behavioral parametric trends and implications in seismic design of walls.

• 한국강구조학회 논문집
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• 제22권4호
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• pp.305-312
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• 2010

본 연구의 목적은 모멘트 접합 골조에서 각형강관 기둥-H 형강 보 접합부의 내진성능평가이다. 각형강관은 H형강에 비해서 효율적이고 많은 장점이 있음에도 불구하고, 아직 접합 디테일의 부족과 경험 부족 등의 이유로 현장에서 적용이 제한적이다. 각형강관을 사용한 기존의 모멘트 접합부는 주로 관통형 다이아프램 형식을 사용하고 있는데 이는 시공과정이 복잡하여 현장에서의 적용을 어렵게 한다. 그러므로 이 연구에서는 각형강관 기둥을 절단하지 않는 접합상세에 대하여 구조성능 및 내진성능을 평가하고자 하였다. 엔드플레이트와 헌치를 이용한 용접접합의 접합상세에 대하여 내력 및 강성, 에너지흡수능력을 비교분석하였다.

• 한국지진공학회논문집
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• 제16권5호
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• pp.41-53
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• 2012

국내외 교량의 내진성능 평가관련 연구들을 조사, 분석한 결과 국내에서 휨 거동 교각의 내진성능에 대한 연구는 상당히 이루어졌으나, 국내에 상당수 분포하는 것으로 분석된 휨-전단 교각에 대해서는 연구실적이 부족한 것으로 파악되었다. 따라서, 이 연구에서는 휨-전단 복합거동이 예측되는 형상비 2.67과 전단거동이 예측되는 형상비 2.25의 실물크기 실험체 및 형상비 2.67의 축소모형 실험체를 제작하여 준정적 내진성능 실험을 실시하였으 며, 주철근의 겹침이음과, 형상비 변화에 따른 파괴거동을 조사 및 분석하였다. 실험결과 휨-전단거동이 예상되는 형상비 부근의 교각은 형상비와 철근상세 변화에 따라 파괴거동 특성이 휨-전단 파괴에서 전단 파괴 또는 휨 파괴, 그리고 주철근 부착파괴로 변하는 것을 확인할 수 있었다. 이와 같은 실험결과들로부터 비내진 원형 철근콘크리트 교각에 대한 항복변위 및 극한변위 산정식을 제안하여 실험을 실시하지 않고도 실제 비내진 교각의 내진성능을 파악할 수 있도록 하였으며, 이는 추후 비내진으로 분류되는 실제 교량의 내진성능 조사 및 보수보강에 큰 도움이 될 것으로 판단된다.

• 한국구조물진단유지관리공학회 논문집
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• 제13권3호통권55호
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• pp.209-216
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• 2009

비내진상세 골조는 낮은 횡저항성을 가지고 있어 큰 변형을 경험하게 되는 반면, 벽체는 높은 강성으로 인해 낮은 변형에서도 전단에 의해 파괴된다. 따라서 이러한 골조와 벽체가 동시에 거동할 경우 발생하는 거동 특성은 개개 부재에서의 거동특성과 매우 다르게 된다. 본 연구에서는 끼움벽에 노치를 둘 경우 내진거동특성을 평가하고자 배근상세를 변수로 하였다. 이 때 노치로 인해 벽체 중앙부에 손상이 집중되는 것을 방지하기 위하여 변형경화형 시멘트 복합체(SHCC)를 사용하였다. 실험결과, SHCC 끼움벽은 다수의 미세균열을 형성하였으나, 대각보강근을 갖는 PIW-ND 실험체가 PIW-NC 실험체에 비해 낮은 변형능력, 강성 및 에너지소산능력을 보였다.