• 한국산학기술학회논문지
• /
• 제12권8호
• /
• pp.3745-3751
• /
• 2011

본 연구에서는 사용 중에 있는 철근콘크리트 보의 사용하중 단계에 따른 탄소섬유 보강 후의 휨보강 효과를 분석 고찰하였다. 사용하중을 받는 RC 보의 탄소섬유시트 보강에 따른 원부재와의 초기변형률 차이와 하중상태에 따른 잔류변형률의 영향을 고려하고, 보강 후 거동에 영향을 미치는 해석변수들에 대한 비선형 단면해석을 수행하여, 보강단계에 따른 보강보의 거동특성 및 보강효과에 대해 고찰하고, 기존 실무에서 보강설계시 가장 많이 사용되는 신영수-홍건호식과 비교 검토하였다. 보강 겁수, 인장철근비, 단면치수비를 변수로 한 변수 해석을 수행하여 보강단계에 따른 휨강도의 변화를 확인하고 보강 시기에 따른 휨강도를 계산하고 휨보강 효과를 분석하였다.

• 한국구조물진단유지관리공학회 논문집
• /
• 제25권6호
• /
• pp.262-269
• /
• 2021

본 논문은 SD700 확대머리철근의 겹침이음을 이용한 단차가 있는 보의 접합상세를 개발하기 위하여 실시한 구조성능평가 실험결과를 나타낸다. 실험변수는 주철근의 겹침이음길이, 철근 항복강도, 단부정착상세 등이다. 모든 실험체에 대하여 춤이 작은 보(B2)의 하부 주철근은 확대머리철근을 적용하였으며, 춤이 큰 보(B1)의 하부 주철근은 일자형 확대머리철근, 90° 갈고리형 확대머리철근 등 두 가지 상세로 이음방법을 적용하였다. 실험결과, SD500과 SD600을 적용한 실험체들은 겹침이음부에서 모두 휨파괴되었으며, 이로 인하여 최대내력은 유사하게 나타났다. SD500을 적용한 실험체들에 대하여, B1의 주철근을 90°갈고리형 확대머리철근으로 적용한 상세가 확대머리철근에 비하여 겹침이음부의 수평균열을 억제하였다. SD700의 확대머리철근을 사용한 실험체는 취성적인 정착파괴가 나타났으며, 겹침이음길이의 증가에 따라 최대내력이 증가하였다. SD700의 확대머리철근을 사용한 실험체들은 실험체정착길이/이론정착길이에 대한 실험내력/이론내력이 ACI 318-19 식은 1.30~1.48로 나타났으며, KDS-2021 식은 1.14~1.30로 평가되었다. 이를 볼 때, ACI 318-19 산정식이 보다 보수적으로 정착길이를 평가함으로써 더 큰 안전율을 가지고 있었다.

• Smart Structures and Systems
• /
• 제3권1호
• /
• pp.23-49
• /
• 2007

Wavelet transforms are the emerging signal-processing tools for damage identification and time-frequency localization. A small perturbation in a static or dynamic displacement profile could be captured using multi-resolution technique of wavelet analysis. The paper presents the wavelet analysis of damaged linear structural elements using DB4 or BIOR6.8 family of wavelets. Starting with a localized reduction of EI at the mid-span of a simply supported beam, damage modeling is done for a typical steel and reinforced concrete beam element. Rotation and curvature mode shapes are found to be the improved indicators of damage and when these are coupled with wavelet analysis, a clear picture of damage singularity emerges. In the steel beam, the damage is modeled as a rotational spring and for an RC section, moment curvature relationship is used to compute the effective EI. Wavelet analysis is performed for these damage models for displacement, rotation and curvature mode shapes as well as static deformation profiles. It is shown that all the damage indicators like displacement, slope and curvature are magnified under higher modes. A localization scheme with arbitrary location of curvature nodes within a pseudo span is developed for steady state dynamic loads, such that curvature response and damages are maximized and the scheme is numerically tested and proved.

• Structural Engineering and Mechanics
• /
• 제53권2호
• /
• pp.311-324
• /
• 2015

The purpose of this study was to investigate experimentally the fatigue performance of reinforced concrete (RC) beams with hot-rolled ribbed fine-grained steel bars of yielding strength 500MPa (HRBF500). Three rectangular and three T-section RC beams with HRBF500 bars were constructed and tested under static and constant-amplitude cyclic loading. Prior to the application of repeated loading, all beams were initially cracked under static loading. The major test variables were the steel ratio, cross-sectional shape and stress range. The stress evolution of HRBF500 bars, the information about crack growth and the deflection developments of test beams were presented and analyzed. Rapid increases in deflections and tension steel stress occured in the early stages of fatigue loading, and were followed by a relatively stable period. Test results indicate that, the concrete beams reinforced with appropriate amount of HRBF500 bars can survive 2.5 million cycles of constant-amplitude cyclic loading with no apparent signs of damage, on condition that the initial extreme tensile stress in HRBF500 steel bars was controlled less than 150 MPa. It was also found that, the initial extreme tension steel stress, stress range, and steel ratio were the main factors that affected the fatigue properties of RC beams with HRBF500 bars, whose effects on fatigue properties were fully discussed in this paper, while the cross-sectional shape had no significant influence in fatigue properties. The results provide important guidance for the fatigue design of concrete beams reinforced with HRBF500 steel bars.

• Geomechanics and Engineering
• /
• 제32권1호
• /
• pp.69-84
• /
• 2023

This paper proposes a novel frame element on Winkler-Pasternak foundation for analysis of a non-ductile reinforced concrete (RC) member resting on foundation. These structural members represent flexural-shear critical members, which are commonly found in existing buildings designed and constructed with the old seismic design standards (inadequately detailed transverse reinforcement). As a result, these structures always experience shear failure or flexure-shear failure under seismic loading. To predict the characteristics of these non-ductile structures, efficient numerical models are required. Therefore, the novel frame element on Winkler-Pasternak foundation with inclusion of the shear-flexure interaction effect is developed in this study. The proposed model is derived within the framework of a displacement-based formulation and fiber section model under Timoshenko beam theory. Uniaxial nonlinear material constitutive models are employed to represent the characteristics of non-ductile RC frame and the underlying foundation. The shear-flexure interaction effect is expressed within the shear constitutive model based on the UCSD shear-strength model as demonstrated in this paper. From several features of the presented model, the proposed model is simple but able to capture several salient characteristics of the non-ductile RC frame resting on foundation, such as failure behavior, soil-structure interaction, and shear-flexure interaction. This confirms through two numerical simulations.

• 대한토목학회논문집
• /
• 제28권4A호
• /
• pp.517-528
• /
• 2008

이 논문에서는 철근과 콘크리트 사이의 부착-슬립을 실제적으로 고려한 철근콘크리트 접합부의 이력 손상 모델을 제안하였다. 슬립을 가시화하기 위해 콘크리트와 철근의 변위장이 서로 다른 프레임 요소를 개발하였다. 파이버 단면 개념으로부터 콘크리트, 철근 그리고 부착에 대한 적합방정식을 정의하였다. 부분적인 제하 및 재재하 상태를 고려하기 위해 철근 이력곡선의 수정이 이루어졌다. 단조증가 상태의 국부적 부착응력-슬립 관계는 손상 계수에 따라 슬립이 역전될 때마다 갱신하였다. 구속된 콘크리트에 매입된 철근 시험체와 기초에 정착된 철근콘크리트 기둥 시험체, 그리고 보-기둥 부재의 수치해석을 통해 모델의 정확성을 검증하였고, 부착-슬립 효과를 고려함으로써 하중 이력에 따른 에너지 소산 정도를 평가할 수 있었다.

• 한국전산구조공학회논문집
• /
• 제20권2호
• /
• pp.165-179
• /
• 2007

이 논문에서는 철근콘크리트 구조물의 최적설계를 위해 기둥과 보 부재 설계 단면의 데이터베이스를 구성하고 이로부터 단면 번호와 단면 저항 능력간의 관계를 나타내는 회귀분석식을 구성하여, 직접 탐색법으로 빠르게 최적해를 검색하는 효율적인 알고리즘을 제안하였다. 설계 실무에서 가격을 고려하여 설계하기보다는 성능 최적화에 가까운 설계를 수행한다는 사실로부터 제안된 알고리즘을 이용하여 성능 최적화와 가격 최적화를 모두 수행하여 그 결과를 비교 검토하였고, 예제 구조물을 대상으로 적용성과 효율성을 검토하였다. 본 알고리즘은 목적 함수 구성시 제한 조건이 없고 전개 과정이 매우 단순하면서도 빠른 수렴성을 보이며 선택된 해가 설계 규준과 실무상의 제한 조건에 부합하므로 바로 적용 가능하다는 장점이 있다. 전체 구조물의 최적화는 개별 부재의 최적화를 통해 이루어진다.

• Structural Engineering and Mechanics
• /
• 제64권1호
• /
• pp.135-143
• /
• 2017

To upgrade shear performance of reinforced concrete (RC) beams, and particularly of the segments under negative moment within continuous T-section beams, a series of original schemes has been proposed using carbon fibre-reinforced polymer (CFRP) U-shaped strips for shear-strengthening. The current work focuses on one of them, in which CFRP U-strips are wound around steel bars against the top of the flange of a T-beam and then spliced on its bottom face in addition to being bonded onto its sides. The test results showed that the proposed scheme successfully provided reliable anchorage for U-strips and prevented premature onset of shear failure due to FRP debonding. The governing shear mode of failure changed from peeling of CFRP to its fracture or crushing of concrete. The strengthened specimens displayed an average increase of about 60% in shear capacity over the unstrengthened control one. The specimen with a relatively high ratio and uniform distribution of CFRP reinforcement had a maximum increase of nearly 75% in strength as well as significantly improved ductility. The formulas by various codes or guidelines exhibited different accuracy in estimating FRP contribution to shear resistance of the segments that are subjected to negative moment and strengthened with well-anchored FRP U-strips within continuous T-beams. Further investigation is necessary to find a suitable approach to predicting load-carrying capacity of continuous beams shear strengthened in this way.

• Advances in concrete construction
• /
• 제13권 2호
• /
• pp.183-190
• /
• 2022

A wide range of experimental bases and improved performance with different forms of Fiber Reinforced Polymer (FRP) have attracted researchers to produce eco-friendly and sustainable structures. The reinforced concrete (RC) beam's shear capacity has remained a complex phenomenon because of various parameters affecting. Design recommendations for the shear capacity of RC elements having FRP reinforcement need a more experimental database to improve design recommendations because almost all the recommendations replace different parameters with FRP's. Steel and FRP are fundamentally different materials. One is ductile and isotropic, whereas the other is brittle and orthotropic. This paper presents experimental results of the investigation on the beams with glass fiber reinforced polymer (GFRP) reinforcement as longitudinal bars and stirrups. Total twelve beams with GFRP reinforcement were prepared and tested. The cross-section of the beams was rectangular of size 230 × 300 mm, and the total length was 2000 mm with a span of 1800 mm. The beams are designed for simply-supported conditions with the two-point load as per specified load positions for different beams. Flexural reinforcement provided is for the balanced conditions as the beams were supposed to test for shear. Two main variables, such as shear span and spacing of stirrups, were incorporated. The beams were designed as per American Concrete Institute (ACI) ACI 440.1R-15. Relation of VExp./VPred. is derived with axial stiffness, span to depth ratio, and stirrups spacing, from which it is observed that current design provisions provide overestimation, particularly at lower stirrups spacing.

• 한국강구조학회 논문집
• /
• 제17권2호통권75호
• /
• pp.151-159
• /
• 2005

본 연구는 기존의 연구성과들을 바탕으로 단부 RC조 중앙부 S조로 이루어진 합성보의 내력평가를 이론적으로 고찰한 것으로 다음의 결론을 얻었다. RC구간 길이가 증가할수록 Vsrc,test/Vsrc,the의 비는 점진적으로 감소하며 그 경향은 a/d=3.5이상에서 더욱 현저함을 알 수 있었다. 많은 보강방법 중에서는 수직+수평 보강 방법이 우수한 결과를 보였다. 그리고, 주근정착길이 0.15L에서 내력상승률이 현저하며, Vsrc,Eq(3)~(5)식 일 때 실험치를 일반적으로 과소평가하는 경향을 나타냈다. 전단스팬비와 주근정착길이, 철골철근비의 변화를 주요변수로 하여 회귀분석에 의한 내력 평가식을 제안하였다.