• Title/Summary/Keyword: continuity of spans

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Behaviors of PSC-Beam Bridges According to Continuity of Spans (1) (PSC-Beam 교량의 연속화에 따른 거동해석 (1))

  • 곽효경;서영재;정찬묵;박영하
    • Journal of the Korea Concrete Institute
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    • v.11 no.5
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    • pp.11-20
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    • 1999
  • This paper deals with behaviors of PSC-Beam bridges according to continuity of spans. To analyze the long-term behavior of bridges, an analytical model which can simulate the effects of creep, the shrinkage of concrete, and the cracking of concrete slabs in the negative moment regions is introduced. To consider the different material properties across the sectional depth, the layer approach in which a section is divided into imaginary concrete and steel layers is adopted. The element stiffness matrix is constructed according to the assumed displacement field formulation, and the creep and shrinkage effects of concrete are considered in accordance with the first-order algorithm based on the expansion of the creep compliance. Correlation studies between analytical and experimental results are conducted with the objective to establish the validity of the proposed model. Besides, many uncertainties related to the continuity of spans are analyzed to minimize deck cracking at interior supports.

Behaviors of PSC-Beam Bridges According to Continuity of Spans (2) (PSC-Beam 교량의 연속화에 따른 거동해석 (2))

  • 곽효경;서영재;정찬묵;박영하
    • Journal of the Korea Concrete Institute
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    • v.11 no.5
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    • pp.21-31
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    • 1999
  • The companion paper presents an analytical model to predict behaviors of PSC-Beam bridges according to continuity of spans. This paper aims at providing several examples of its application to PSC-Beam bridge. In this regard, many uncertainties affecting to the continuity of spans (such as the ultimate shrinkage strain of slab and girders, the prestressing creep of girders, and the time adopting prestressing force) are analysis in detail. Moreover, to increase the serviceability and to remove th inherent structural defects including the cracking at interior supports, a necessity for the parametric studies of PSC-Beam bridges reflecting the construction sequence is emphasized.

A continuity method for bridges constructed with precast prestressed concrete girders

  • Lee, Hwan Woo;Barnes, Robert W.;Kim, Kwang Yang
    • Structural Engineering and Mechanics
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    • v.17 no.6
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    • pp.879-898
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    • 2004
  • A method of making simply supported girders continuous is described for bridges with spans of 30-45 m. The splicing method takes advantage of an induced secondary moment to transform the self-weight stresses in the precast simply supported girders into values representative of a continuous girder. The secondary moment results from prestressing of continuity tendons and detensioning of temporary tendons in the girders. Preliminary sections are selected for spliced U-girder bridges with a range of span lengths. Use of the proposed technique results in girder depth reductions of 500-800 mm when compared to standard simply supported I-girder bridges. The flexural behavior of an example bridge with 40-m spans is examined to illustrate the necessary considerations for determining the optimum sequence of splicing operations.

A Study on Effect of Pre-Stressing Sequences in PSC Bridge Strengthening Method Using Continuity with External Prestressing (PSC교량 보강시 긴장력 도입순서의 영향에 관한 연구)

  • 방명석
    • Journal of the Korean Society of Safety
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    • v.16 no.4
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    • pp.123-127
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    • 2001
  • Numerous PSC bridges are stregthened by the combined use of continuity of simple spans and addition of external prestressing. In this case prestressing sequences should be carefully checked due to the effect on the stress and camber of girders and slab. Various prestressing sequences were applied in this field test and measured values were analysed. This results show that preatressing sequences affact the stress and deflection of bridge members, so the prestressing sequence should be considered at the desist and construction stages of deteriorated bridges.

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Behavior of continuous RC deep girders that support walls with long end shear spans

  • Lee, Han-Seon;Ko, Dong-Woo;Sun, Sung-Min
    • Structural Engineering and Mechanics
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    • v.38 no.4
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    • pp.385-403
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    • 2011
  • Continuous deep girders which transmit the gravity load from the upper wall to the lower columns have frequently long end shear spans between the boundary of the upper wall and the face of the lower column. This paper presents the results of tests and analyses performed on three 1:2.5 scale specimens with long end shear spans, (the ratios of shear-span/total depth: 1.8 < a/h < 2.5): one designed by the conventional approach using the beam theory and two by the strut-and-tie approach. The conclusions are as follows: (1) the yielding strength of the continuous RC deep girders is controlled by the tensile yielding of the bottom longitudinal reinforcements, being much larger than the nominal strength predicted by using the section analysis of the girder section only or using the strut-and-tie model based on elastic-analysis stress distribution. (2) The ultimate strengths are 22% to 26% larger than the yielding strength. This additional strength derives from the strain hardening of yielded reinforcements and the shear resistance due to continuity with the adjacent span. (3) The pattern of shear force flow and failure mode in shear zone varies depending on the amount of vertical shear reinforcement. And (4) it is necessary to take into account the existence of the upper wall in the analysis and design of the deep continuous transfer girders that support the upper wall with a long end shear span.

A Fundamental Study to Develop the Two Span Continuous Bridge using the Partial Post-Tensioning Technique (부분포스트텐션닝 방법을 이요한 2경간 연속 교량구조의 개발을 위한 기초연구)

  • 이환우;김종수;국승규;김광양
    • Proceedings of the Korea Concrete Institute Conference
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    • 1997.10a
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    • pp.797-802
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    • 1997
  • The current study is a part of series o research about the development of new superstructure system to overcome the engineering problems in the design of bridges of 30m to 45m in span length using the existing bridge systems. The basic concept of new system is the continuation of adjacent tow simple spans composed of the precast prestressed concrete U-type sections. The partial post tensioning method is applied to create the continuity. In this study, the new technique was introduced and applied with an example design of tow span of 40m in span length to find the possibility for practical application as the feasibility study. The obtained results show that the new splicing method is expected to offer significant economical and serviceability advantages.

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An Experimental study of External Prestress Strengthening Method for continuous bridges (외부강선을 이용한 연속교 보강공법의 실험적 연구)

  • Han, Man-Yup;Shin, Jae-Woo;Kang, Tae-Heon;Jin, Kyung-Suk;Kang, Sang-Hun
    • Proceedings of the Korea Concrete Institute Conference
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    • 2006.11a
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    • pp.117-120
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    • 2006
  • This study is for the strengthening method of continuous bridge through external tendon strengthening that is the most general and effective among concrete bridge's strengthening method. Recently, it is numerous that slab's parts between spans have continuity for improving trafficable ability. However, in this case, slab would have a crack; bridge's durability would be damaged, and also it is too difficult to manage and maintain bridge due to the tensile strength of negative moment. Therefore, the purpose of this study is to demonstrate load-carrying through experiments and develop new external pre-stressing strengthening method for reinforcing continuous bridge.

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Structural Design of an Ultra High-rise Building Using Concrete Filled Tubular Column with 780 N/㎟ Class High-strength Steel and Fc150 N/㎟ High-strength Concrete

  • Matsumoto, Shuichi;Hosozawa, Osamu;Narihara, Hiroyuki;Komuro, Tsutomu;Kawamoto, Shin-ichiro
    • International Journal of High-Rise Buildings
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    • v.3 no.1
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    • pp.73-79
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    • 2014
  • In recent years, the performance requested for which an ultra-high rise buildings is diversified. Large spans are designed in order to gain wide workspace. Column positions are shifted in middle stories to provide space different from neighboring floors. Moreover, in the bottom layers of the building, it is becoming more important to expand freedom to plan flexibility such as creating publically opened wide atria that gives attractive free space. Earthquake-proof criteria is also changing not only human life protection deign but also a design that allows functional continuity. In order to achieve thee needs, as one of technology, we have developed ultra-high strength concrete filled tubular (CFT) columns of the box section that combine ultra-high strength concrete with specified strength of $150N/mm^2$ and ultra-high strength steel material with tensile strength of $780N/mm^2$. In this paper, the outline of development of an ultra-high strength CFT column is reported. Also, the structural design of the ultra-high-rise building using the CFT columns is reported.

A Study on Influencing Factors in BWIM System and Its Field Applicability (BWIM시스템의 현장 적용성 및 영향인자에 관한 연구)

  • Yoo, Dong Gyun;Kyung, Kab Soo;Lee, Sung Jin;Lee, Hee Hyun;Jeon, Jun Chang
    • Journal of Korean Society of Steel Construction
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    • v.26 no.4
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    • pp.251-262
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    • 2014
  • It has been considered that factors affecting accuracy of the estimated weight of moving vehicle by BWIM system are vehicle and bridge characteristics, and measurement conditions which is related to the strain curve. In this study, theoretical review and field test were performed to evaluate effect of these factors in BWIM system. From these evaluations, we proposed a way to improve accuracy of the estimated vehicle information in BWIM system. As the results, it was known that girder type and continuity of spans in bridge are not governing factor, but its plane shape gives large influence on accuracy of the estimated vehicle information. In addition, running speed of vehicle has also large effect on the estimated accuracy of axle distance if the distance between second and third axles is short. However, weight sum of the two axles can be estimated reasonably by assuming them as one axle.

Effect of Guideway Characteristics on Runnability of Actively Controlled Maglev Vehicle (선로특성이 능동제어 자기부상열차의 주행성에 미치는 영향)

  • Lee, Jun-Seok;Kim, Moon-Young;Kwon, Soon-Duck;Yeo, In-Ho
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.29 no.2D
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    • pp.295-303
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    • 2009
  • The purpose of present study is to examine the effect of guideway characteristics on runnability of low and medium speed maglev vehicle. Dynamic governing equation for 2-dof vehicle and optimal feedback control scheme are developed. And then the effect of vehicle speed, rail roughness, guideway deflection, continuity of spans, each span length on dynamic response of the UTM-01 maglev vehicle are investigated. From the numerical simulation, it is found that the gap between bogie and guideway does not increase greatly within design velocity of the vehicle. The response of vehicle are mostly affected by the guideway deflection rather than rail roughness. As a result of the present study, the runnability of maglev vehicle can be improved by reducing the maximum deflection of guideway and adopting the continuous girder systems.