Axial Load Behavior of Stiffened Concrete-Filled Steel Columns

Huang, Chih‐Feng; Yeh, Y.-K.; Liu, G. Y.; Hu, Hai-Ping; Tsai, Keh‐Chyuan; Weng, Yuan‐Tao; Wang, S. H.; Wu, Minghsien

doi:10.1061/(asce)0733-9445(2002)128:9(1222)

Cited by 294 publications

(99 citation statements)

References 7 publications

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“…최영환 [4] 은 현행 규준 [2], [3] 에서 제시하는 제한치 이상의 판폭두께비를 지닌 폭두 께비 60∼100의 CFT단주 기둥을 제작하여 중심축하중 실 험을 수행하였다. 중심축하중 실험을 통해 CFT기둥에서의 좌굴 후 내력의 상승을 확인하였고, 기존 규준 [2], [3] [5], [6], [7], [8] 기존의 연구내용 [5], [6], [7], [8] 과는 달리 박재우 [9] 선행연구 [5], [6], [7], [8] 와는 달이 본 연구에서는 폭두께비가 [12] 결과는 Table 3에 정리하였고(단, 괄호 안의 치수는 실제치수임), CFRP쉬트에 대한 재료시험 [13] 결과는 Table 4에 각 실험체의 최대내력은 Table 5에 정리하였다. 또한 …”

Section: Fig 2 the Concept Of Local Buckling Delayed By Cfrp Sheetsunclassified

Axial Loading Behaviors of Square Concrete-Filled Tubular Columns with Large Width-to-Thickness Ratio Retrofitted using Carbon Fiber Reinforced Polymer Sheets(CFRP Sheets)

Park¹,

Yoo²

2014

Journal of Korean Society of Steel Construction

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-This paper presents the experimental results of behavior of square CFT columns with large the width-ro thickness ratio strengthened with carbon fiber reinforced polymers (CFRP) sheets subjected to concentrated axial loading. The main parameters were b/t ratio and the number of CFRP layers and 6 specimens were fabricated.. The values of b/t were ranged from 60 to 100. From the tests, Maximum increase of 16% was also achieved in axial-load capacity with three transverse layered CFRP applied on four sides of steel tubes. The load capacity decreased up to 41% comparing with nominal load capacity of unstrengthened CFT column. However, for CFRP strengthened CFT, the load capacity decreased up to 32%. Finally, from the load-strain relationships, the local buckling occurred before yield point of steel tubes. Also, from the load-strain relationships, it was observed that local buckling were delayed on CFT columns by CFRP sheets retrofitting.

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Section: Fig 2 the Concept Of Local Buckling Delayed By Cfrp Sheetsunclassified

Axial Loading Behaviors of Square Concrete-Filled Tubular Columns with Large Width-to-Thickness Ratio Retrofitted using Carbon Fiber Reinforced Polymer Sheets(CFRP Sheets)

Park¹,

Yoo²

2014

Journal of Korean Society of Steel Construction

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“…However, concrete-filled square or rectangular steel tubes have their own advantages including convenient beam-to-column connection, high moment capacities, and aesthetic consideration [6]. As a way to improve the confinement of square or rectangular tubes, some researchers have utilized welded longitudinal stiffeners on the inner or outer wall of square or rectangular steel tubes [7][8] or transverse stiffeners (welded or bolted binding bars at the wall of tube) arranged at an spacing along the longitudinal axis of the steel tubes [9][10]. The main test results revealed that the longitudinal and transverse stiffeners are effective in delaying local buckling and enhancing bearing capacity.…”

Section: Introductionmentioning

confidence: 99%

Test of Special-Shaped Muti-Cavity-Bifurcated CFST

Yang¹,

Cao²,

Dong³

2017

Topics in Civil, Environmental &Amp; Building Engineering (TICEBE)

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“…The CFRT column-to-beam connections are broadly classified into two categories [4]. The most convenient way is directly attaching the steel beam to the column tube or through the diaphragm plate.…”

Section: Introductionmentioning

confidence: 99%

Development of Connections to Concrete-Filled Rectangular Tubular Columns

Chen¹,

Qin²,

Wang³

2015

Volume 11 Number 4

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Concrete-filled rectangular tubular column composite frame systems with steel beams have been widely used in moment-resisting frames for engineering practice. This paper reviewed a variety of connection details to concrete-filled rectangular tubular (CFRT) columns that have been developed by different researchers. The research on CFRT connections was divided into three phrases. The first phase dates back to the late sixties of twentieth century, when the steel moment-resisting frames were regarded as one of the most ductile systems. The second phase is defined as the period between middle nineties and the beginning of the twenty-first century, during the early stage of which the Northridge earthquake and Kobe earthquake occurred and the conventional knowledge of traditional connections were subverted, leading to the requirement of paying more attention to the investigation of connection behavior under seismic loading. The third phase passes through the following year up to the present. During this phase, various connection alternatives were proposed and studied. Based on the summary of previous studies, the future developments were presented at the end of the paper.

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Axial Load Behavior of Stiffened Concrete-Filled Steel Columns

Cited by 294 publications

References 7 publications

Axial Loading Behaviors of Square Concrete-Filled Tubular Columns with Large Width-to-Thickness Ratio Retrofitted using Carbon Fiber Reinforced Polymer Sheets(CFRP Sheets)

Axial Loading Behaviors of Square Concrete-Filled Tubular Columns with Large Width-to-Thickness Ratio Retrofitted using Carbon Fiber Reinforced Polymer Sheets(CFRP Sheets)

Test of Special-Shaped Muti-Cavity-Bifurcated CFST

Development of Connections to Concrete-Filled Rectangular Tubular Columns

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