• 복합신소재구조학회 논문집
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• 제2권4호
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• pp.1-10
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• 2011

본 연구는 각 연결부에 대한 수치 해석을 통하여 강재-콘크리트 합성 프레임 구조물의 성능을 조사하였다. 본 연구의 혁신적인 측면은 강재 보와 CFT 기둥의 연결부 사용과 저탄소강과 형상 기억 합금 구성요소의 조합을 활용하는데 있다. 이러한 새로운 연결부의 목적은 지진 후 건물의 손상과 잔류 흐름을 줄이기 위해 고탄성 형상기억합금 인장부에서 발생하는 교정 작용과 저탄소강의 우수한 에너지 분산 능력을 활용하는 것이다. 연결부의 핀, 전체적인 고정 또는 부분 구속으로 모델링을 할 수 없기 때문에 이러한 구조물들의 해석과 설계는 복잡하여 PR-CFT 연결부의 전체적인 거동을 알기 위한 수치해석을 위해 정교한 3차원 솔리드 요소로 구성된 유한해석 모델을 개발하였다. 이러한 유한요소 해석으로 얻은 결과를 바탕으로 스프링 요소를 이용하여 간단한 연결부 모델링을 공식화 시켰다. 반복 하중을 가하여 전체 프레임 구조물의 거동을 확인하였고 3D 유한요소 해석을 통하여 단순 거동을 비교하였다.

• 한국지진공학회논문집
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• 제7권3호
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• pp.47-55
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• 2003

본 연구에서는 등가 에너지 개념에 근거하여 비좌굴 가새골조의 간편한 내진설계방법을 제안하였다. 단자유도계로 치환된 구조물의 지진 입력에너지를 응답 스펙트럼으로부터 구한 후, 탄성에너지와 소성에너지를 등가 에너지 개념을 이용하여 산정한다. 이렇게 구한 소성에너지를 분배비에 따라 각 층에 분배하고, 모든 소성에너지는 가새에 의하여 소산된다고 가정하여 각 가새의 단면적을 산정할 수 있다. 제안된 방법을 검증하기 위하여 3층, 6층, 20층 가새골조를 제안된 방법으로 주어진 목표변위를 만족하도록 설계하고, 인공지진을 이용하여 결과를 검증하였다. 해석결과에 의하면 저층 건물의 최상층 변위는 비교적 목표변위를 만족하였으나, 20층 건물의 최상층 변위는 목표변위보다 매우 작아 가새가 과다하게 설계된 것으로 나타났다.

• Earthquakes and Structures
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• 제10권6호
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• pp.1253-1272
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• 2016

For a nonlinear control system, there are many uncertainties, such as the structural model, controlled parameters and external loads. Although the significant progress has been achieved on the robust control of nonlinear systems through some researches on this issue, there are still some limitations, for instance, the complicated solving process, weak conservatism of system, involuted structures and high order of controllers. In this study, the computational structural mechanics and optimal control theory are adopted to address above problems. The induced norm is the eigenvalue problem in structural mechanics, i.e., the elastic stable Euler critical force or eigenfrequency of structural system. The segment mixed energy is introduced with a precise integration and an extended Wittrick-Williams (W-W) induced norm calculation method. This is then incorporated in the market-based control (MBC) theory and combined with the force analogy method (FAM) to solve the MBC robust strategy (R-MBC) of nonlinear systems. Finally, a single-degree-of-freedom (SDOF) system and a 9-stories steel frame structure are analyzed. The results are compared with those calculated by the $H{\infty}$-robust (R-$H{\infty}$) algorithm, and show the induced norm leads to the infinite control output as soon as it reaches the critical value. The R-MBC strategy has a better control effect than the R-$H{\infty}$ algorithm and has the advantage of strong strain capacity and short online computation time. Thus, it can be applied to large complex structures.

• Smart Structures and Systems
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• 제26권3호
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• pp.345-360
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• 2020

Modern swarm intelligence heuristic search methods are widely applied in the field of structural health monitoring due to their advantages of excellent global search capacity, loose requirement of initial guess and ease of computational implementation etc. To this end, a hybrid strategy is proposed based on butterfly optimization algorithm (BOA) and differential evolution (DE) with purpose of effective combination of their merits. In the proposed identification strategy, two improvements including mutation and crossover operations of DE, and dynamic adaptive operators are introduced into original BOA to reduce the risk to be trapped in local optimum and increase global search capability. The performance of the proposed algorithm, hybrid butterfly optimization and differential evolution algorithm (HBODEA) is evaluated by two numerical examples of a simply supported beam and a 37-bar truss structure, as well as an experimental test of 8-story shear-type steel frame structure in the laboratory. Compared with BOA and DE, the numerical and experimental results show that the proposed HBODEA is more robust to detect the reduction of stiffness with limited sensors and contaminated measurements. In addition, the effect of search space, two dynamic operators, population size on identification accuracy and efficiency of the proposed identification strategy are further investigated.

• 한국전산구조공학회논문집
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• 제23권1호
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• pp.111-119
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• 2010

여러 연구자들에 의해 최적화 알고리즘을 이용한 최적내진설계에 관한 연구가 컴퓨터의 발달과 더불어 활발히 이루어져 왔다. 하지만 지금까지의 최적내진설계에 관한 연구는 대부분 모멘트저항골조를 대상구조물로 한 연구였다. 가새골조는 모멘트저항골조와 더불어 대표적인 횡력저항시스템이기 때문에 가새골조의 최적내진설계기법 개발을 통해 경제적이며 효율적인 설계가이드라인을 제시할 수 있다면 실무에 미치는 파급효과는 클 것이라 판단된다. 본 논문에서는 가새의 좌굴을 고려한 역V형 특수중심가새골조의 최적내진설계 알고리즘을 제안하고자 한다. 제안된 알고리즘은 구조물의 물량과 에너지 소산량을 목적함수로 설정하고, 강도조건 및 층간변위 조건등의 제약조건으로 설정한다. 알고리즘의 검증을 위해 2D 3층, 9층 역V형 특수중심가새골조 예제를 적용한다.

• Structural Engineering and Mechanics
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• 제69권3호
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• pp.257-268
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• 2019

Infills are as important members in structural design as beams, columns and braces. They have significant effect on structural behavior. Because of lots of variables in infills like material non-linear behavior, the interaction between frames and infill, etc., the infills performance during an earthquake is complicated, so have led designers do not consider the effect of infills in designing the structure. However, the experimental studies revealed that the infills have the remarkable effect on structure behavior. As if these effects ignored, it might occur soft-story phenomena, torsion or short-column effects on the structures. One simple and appropriate method for considering the infills effects in analyzing, is replacing the infills with diagonal compression strut with the same performance of real infill, instead of designing the whole infill. Because of too many uncertainties, codes and researchers gave many expressions that were not as the same as the others. The major intent of this paper is calculation the width of this diagonal strut, which has the most characteristics of infill. This paper by comprehensive on different parameters like the modulus of young or moment of inertia of columns presents a new formula for achieving the equivalent strut width. In fact, this new formula is extracted from about 60 FEM analyses models. It can be said that this formula is very efficient and accurate in estimating the equivalent strut width, considering the large number of effective parameters relative to similar relationships provided by other researchers. In most cases, the results are so close to the values obtained by the FEM. In this formula, the effect of out of plane buckling is neglected and this formula is used just in steel structures. Also, the thickness of infill panel, and the lateral force applied to frame are constant. In addition, this new formula is just for modeling the lateral stiffness. Obtaining the nearest response in analyzing is important to the designers, so this new formula can help them to reach more accurate response among a lot of experimental equations proposed by researchers.

• Tribology and Lubricants
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• 제35권3호
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• pp.183-189
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• 2019

The driver seat of an automobile is in direct contact with the driver and provides the driver with a safe and comfortable ride. The seat consists of a frame, a rail, and many recliners. In recent years, strength and operating force measurement testing of the recliner have become vital for designing car seats. However, performance evaluation requires expensive testing equipment, numerous seat products, and considerable time. Therefore, the trend is to reduce experimentation through interpretation. This study examines the lubrication of solid lubricant for automotive seat recliners and confirms the friction and wear performance. In this study, the lubrication behavior of solid lubricants for car seat recliners is investigated to ascertain the friction and wear performance and to provide accurate values for the strength analysis. The friction material consists of a pin and a plate made from steel, which is widely used in recliners. The friction and wear under lubrication conditions are measured by a reciprocating friction wear tester. The friction coefficient is obtained according to the load and speed. Based on the obtained results, it is possible to achieve a reduction in the error of the test value and the analysis by providing the friction coefficient and wear of the lubricant. The results can be applied to the analysis of automobile seat design.

• Steel and Composite Structures
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• 제47권2호
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• pp.147-165
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• 2023

The paper contrasts conventional seismic design with a design that incorporates buckling-restrained bracing in three-dimensional reinforced concrete buildings (BRBs). The suboptimal structures may be found using the multi-objective chimp optimization algorithm (MEN-ChOA). Given the constraints and dimensions, ChOA suffers from a slow convergence rate and tends to become stuck in local minima. Therefore, the ChOA is improved by niching and evolutionary operators to overcome the aforementioned problems. In addition, a new technique is presented to compute seismic and dead loads that include all of a structure's parts in an algorithm for three-dimensional frame design rather than only using structural elements. The performance of the constructed multi-objective model is evaluated using 12 standard multi-objective benchmarks proposed in IEEE congress on evolutionary computation. Second, MEN-ChOA is employed in constructing several reinforced concrete structures by the Mexico City building code. The variety of Pareto optimum fronts of these criteria enables a thorough performance examination of the MEN-ChOA. The results also reveal that BRB frames with comparable structural performance to conventional moment-resistant reinforced concrete framed buildings are more cost-effective when reinforced concrete building height rises. Structural performance and building cost may improve by using a nature-inspired strategy based on MEN-ChOA in structural design work.

• Earthquakes and Structures
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• 제26권3호
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• pp.203-218
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• 2024

Beam-column joints in the frame structure are at high risk of brittle shear failure which would lead to significant residual deformation and even the collapse of the structure during an earthquake. In order to improve the damage issue and enhance the recoverability of the beam-column joints, a sector lead rubber damper (SLRD) has been developed. The SLRD can increase the bearing capacity and energy dissipation capacity, and also demonstrating recoverability of seismic performance following cyclic loading. In this paper, the hysteretic behavior of SLRD was experimentally investigated in terms of the regular hysteretic behavior, large deformation behavior and fatigue behavior. Furthermore, a parametric analysis was performed to study the influence of the primary design parameters on the hysteretic behavior of SLRD. The results show that SLRD resist the exerted loading through the shear capacity of both rubber parts coupled with the lead cores in the pre-yielding stage of lead cores. In the post-yielding phase, it is only the rubber parts of the SLRD that provide the shear capacity while the lead cores primarily dissipate the energy through shear deformation. The SLRD possesses a robust capacity for large deformation and can sustain hysteretic behavior when subjected to a loading rotation angle of 1/7 (equivalent to 200% shear strain of the rubber component). Furthermore, it demonstrates excellent fatigue resistance, with a degradation of critical behavior indices by no more than 15% in comparison to initial values even after 30 cycles. As for the designing practice of SLRD, it is recommended to adopt the double lead core scheme, along with a rubber material having the lowest possible shear modulus while meeting the desired bearing capacity and a thickness ratio of 0.4 to 0.5 for the thin steel plate.

• 콘크리트학회논문집
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• 제19권3호
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• pp.283-292
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• 2007

본 연구는 화재에 노출된 철근콘크리트 구조물의 열적 특성 및 구조 거동을 예측할 수 있는 비정상 온도 분포 해석 및 비선형 유한요소해석 기법 개발에 관한 것으로써, 범용 유한요소해석 프로그램인 DIANA를 이용하여 화재에 의한 고온을 받는 철근콘크리트 구조에 대한 수치해석을 수행하고 그 결과를 비교분석하였다. 고온을 받는 철근콘크리트 골조에 대한 수치해석은 시간의존 비정상 온도 분포 해석과 비선형 유한요소해석의 2단계로 진행된다. 비정상 온도 분포 해석에서는 열전도율, 열용량, 열팽창계수에 대한 시간의존 변수를 온도 함수로 표현하여 이를 고려하였으며, 비선형 유한요소해석에 있어서는 콘크리트의 비선형성과 균열을 고려하기 위하여 파괴 역학적 관점을 도입하였다. 또한 철근콘크리트 단순보에 대한 내화 실험을 실시하여, 재료의 열적 특성 및 해석 기법에 대한 검증을 실시하였다. 이러한 해석 기법을 철근콘크리트 골조로 확장하여 열에 의한 콘크리트 및 철근의 역학적 물성 변화 요인을 고려한 해석을 통하여 각각의 변수에 대한 비교 분석을 수행하였다. 본 연구에서의 고온 환경하의 철근콘크리트 구조물에 대한 비선형 유한요소해석기법은 온도에 따른 재료의 열적 특성 및 역학적 성능 및 화재-온도 곡선을 자유롭게 입력하여 고려할 수 있으며, 추후 관련 해석에 용이하게 사용될 수 있을 것으로 판단되었다.