• Title/Summary/Keyword: Steel diaphragm wall

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Characteristics and Applicability of CWS(Continuous Wall System)II Method (CWS(Continuous Wall System)II 공법의 특성 및 적용성)

  • Lim, In-sig;Lee, Jeong-bae;Kim, Jae-dong;Lee, Jai-ho;Woo, Sung-woo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2008.11a
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    • pp.43-47
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    • 2008
  • CWSII method was developed to overcome the problems of frequent occurrence in the application of existing downward construction methods, especially in the case of using slurry wall instead of SCW or CIP as a retaining wall. By the improvements in connecting steel beams with the wall, CWSII method is able to ensure the settlement of a steel beam and the diaphragm effect of a slab while reducing the degree of difficulty and the term of works and the cost of construction. As the desired results, CWS method can be applied as a practical downward construction method regardless of the type of retaining wall. In this paper, besides the concept and features of CWSII method, it can be seen that the method can provide reliable and economical performances by comparing with existing methods.

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Study on Development and Application of CWS(Continuous Wall System) II Method (CWS(Continuous Wall System) II 공법의 개발 및 적응에 관한 연구)

  • Lim, In-Sig;Lee, Jeong-Bae;Choi, Sun-Young;Lee, Jai-Ho;Woo, Sung-Woo
    • Journal of the Korea Institute of Building Construction
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    • v.9 no.1
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    • pp.57-64
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    • 2009
  • CWS I method developed to overcome the problems of frequent occurrence in the application of existing downward construction methods has demonstrated excellent efficiency. However, in the case of using slurry wall instead of SCW or CIP as a retaining wall, the improvements in connecting steel beams with the wall were demanded. Therefore, the study of CWS II method was carried out in order to accomplish the CWS I method reflecting its strong points and to ensure the settlement of a steel beam and to induce the diaphragm effect of a slab while reducing the degree of difficulty and the term of works and the cost of construction. In this paper, the concept and features of CWS II method as well as the progress of execution was discussed by comparing with existing methods.

A Numerical Analysis of Excavation Method Using Partially Reinforced Soldier Pile (부분보강 엄지말뚝을 이용한 굴착시공방법의 수치해석적 타당성검토)

  • 김준석;김주용;이승래
    • Journal of the Korean Geotechnical Society
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    • v.16 no.2
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    • pp.5-12
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    • 2000
  • The hazard of excavation may be very high until a supporting system is completely installed. In this paper, an excavation method which uses partially reinforced soldier pile($\square$-shape) inserted by a short length steel bar was proposed and simulated by the finite element method. The reinforcing steel bar is moved down along the stage of excavation to reinforce the stiffness of the supporting system. The result of analysis showed that the risk of failure by bending moment or shear stress could be significantly reduced by the reinforcing effect of the steel bar. The proposed method could be applied to the strut-supporting wall or the diaphragm wall.

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Improvement of Flexural Performance of Steel Diaphragm Walls With Interlocking Effects (인터록킹에 의한 강재지하연속벽의 휨성능 개선)

  • Lee, Jae Young;Hassan, Md Mehidi;Jeong, Gawn Woo;Han, Shin In;Jeong, Hae Chan;Kim, Doo Kie
    • Journal of the Earthquake Engineering Society of Korea
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    • v.28 no.6
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    • pp.365-372
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    • 2024
  • According to the recently revised seismic design standards, seismic design of underground structures is required. Concrete underground outer walls are installed separately from temporary earth retaining walls as permanent underground outer walls. This raises issues of constructability, economy, and space narrowness. Therefore, a steel underground continuous wall is developed to promote construction efficiency, safety, and economy by introducing the off-site construction (OSC) method of underground structures. The steel underground continuous wall will be used as a permanent underground continuous wall along with the temporary earth retaining wall. To this end, it must satisfy structural performance equivalent to or higher than the concrete underground outer wall. The integrity and in-plane shear resistance performance between single panel members must be satisfied to be used as a permanent wall. The interlocking effect through geometric bonding is intended to enhance the bonding effect between these members. Therefore, trapezoidal members were developed, and bending performance tests and analyses of each member were performed to confirm the structural bending performance of these members. The bending performance improvement effect of the combined multiple members was confirmed. As a result, it was confirmed that the integration of members and structural performance was improved due to the interlocking effect of the absence of joints. The seismic design analysis of the demonstration site was performed with these developed members, and it was confirmed that the structural performance was equivalent to or higher than that of the existing RC underground continuous wall. As a result, it was confirmed that the steel underground continuous wall can be used as a permanent underground wall together with the temporary earth retaining wall.

An Analytical Study on the Optimum Application of Diaphragm in Circular Steel Piers (원형강교각의 다이아프램 최적 적용에 관한 해석적 연구)

  • Jang, Gab-Chul;Chang, Kyong-Ho
    • Journal of Korean Association for Spatial Structures
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    • v.7 no.2 s.24
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    • pp.91-96
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    • 2007
  • To improve the land use of urban, Construction of the circular steel column is required recently. The circular steel columns have a advantage for improving a load carrying capacity as wall as reducing a effective section area. However, the circular steel columns under service load, such as earthquake, shows a tendency to cause local buckling and large deformation. To prevent these phenomena, use of diaphragm is considered. It is reported that longitudinal stiffeners has a effect on improving a buckling and fatigue performance of steel structures. The research of effect on diaphragm is not sufficient. Under monotonic and cyclic loadings diaphragm make a important role to prevent local buckling and deformation of used steel structures. Therefore, influence of diaphragm on performance of used steel structures is investigated. In this study, the influence of diaphragm on seismic and deformation performance of circular steel piers was investigated by using elastic-plastic finite element analysis considered geometrical and material non-linearity. The seismic performance of circular steel columns was evaluated for analytical parameter of manufactured part. The seismic performance of circular steel columns was clarified by comparing an energy dissipation of circular steel piers.

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Study on Development of CWS (buried wale Continuous Wall System) Method (CWS공법(buried wale Continuous Wall System)의 개발에 관한 연구)

  • Lee Jeong-Bae;Lim In-Sig;Chun Sung-Chul;Oh Boh-Wan;Ha In-Ho;Rhim Hong-Chul
    • Journal of the Korea Institute of Building Construction
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    • v.6 no.2 s.20
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    • pp.81-89
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    • 2006
  • A down construction method is frequently used in these days to reduce popular discontent and to assure sufficient working space at early stage in downtown area. There are two main problems in the existing down construction method. One is a confliction between frame works and excavation works, and the other is a cold joint in retaining wall which is unavoidable due to a sequence of concrete placement and induces a water leakage. Therefore, a new method is needed to overcome these problems. The CWS (buried wale Continuous Wall System) method was developed by authors. By replacing RC perimeter beam with embedded steel wale, the steel frame works of substructure can be simplified and the water leakage can be prevented using continuous retaining wall. Consequently, the improved qualify and reduction of construction period can be obtained from CWS method.

Field Application of Up-Up Construction Using Buried Wale Continuous Walt System Method (CWS공법(Buried Wale Continuous Wall System)을 적용한 Up-Up 시공사례)

  • Lee Jeong-Bae;Lim In-Sig;Kim Dong-Hyun;Oh Bo-Hwan;Ha In-Ho;Rhim Hong-Chul
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2006.05a
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    • pp.1-4
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    • 2006
  • A down construction method is frequently used in these days to reduce popular discontent and to assure sufficient working space at early stage in downtown area. There are two main problems in the existing down construction method. One is a confliction between frame works and excavation works, and the other is a cold joint in retaining wall which is unavoidable due to a sequence of concrete placement and induces a water leakage. Therefore, a new method is needed to overcome these problems. The CWS (buried wale Continuous Wall System) method was developed by authors. By replacing RC perimeter beam with embedded steel wale, the steel frame works of substructure can be simplified and the water leakage can be prevented using continuous retaining wall. Consequently, the improved duality and reduction of construction period can be obtained from CWS method.

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Seismic design of connections between steel outrigger beams and reinforced concrete walls

  • Deason, Jeremy T.;Tunc, Gokhan;Shahrooz, Bahram M.
    • Steel and Composite Structures
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    • v.1 no.3
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    • pp.329-340
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    • 2001
  • Cyclic response of "shear" connections between steel outrigger beams and reinforced concrete core walls is presented in this paper. The connections investigated in this paper consisted of a shear tab welded onto a plate that was connected to the core walls through multiple headed studs. The experimental data from six specimens point to a capacity larger than the design value. However, the mode of failure was through pullout of the embedded plate, or fracture of the weld between the studs and plate. Such brittle modes of failure need to be avoided through proper design. A capacity design method based on dissipating the input energy through yielding and fracture of the shear tab was developed. This approach requires a good understanding of the expected capacity of headed studs under combined gravity shear and cyclic axial load (tension and compression). A model was developed and verified against test results from six specimens. A specimen designed based on the proposed design methodology performed very well, and the connection did not fail until shear tab fractured after extensive yielding. The proposed design method is recommended for design of outrigger beam-wall connections.

Development of construction method for underground buildings with MSRC diaphram wall and study on flexural performance of MSRC diaphram wall (강재주열벽을 적용한 지하건축물 가설공법의 개발 및 강재주열벽의 휨성능 연구)

  • Chung, Jee-Seung;Na, Gwi-Tae
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.19 no.6
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    • pp.937-957
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    • 2017
  • Urban roads are not only congested with vehicles and pedestrians, but also have many pipelines buried to provide convenience for inhabitants. In addition, urban inhabitants live comfortably in buildings adjacent to the road for residence, business, commerce, rest and so on. Therefore, despite the high cost of land, urban underground buildings with high land use efficiency are constantly being built. Recently, the construction of underground buildings has caused social problems such as the collapse of surrounding roads and adjacent buildings. Institutional improvement is being actively carried out to improve this. In this study, a new type of MSRC diaphragm wall was developed and a study on the construction method of underground building was carried out. It is intended to secure the underground excavation safety of underground buildings in urban areas and effectively prevent land subsidence complaints. Also, a reasonable design method of MSRC diaphragm walls using the ultimate strength design method is presented through the flexural performance Experiment.

Design of High Strength Underground FRP Septic Tank Stiffened by Circular Steel Pipe (원형강관으로 보강된 지중매립형 FRP 개인하수 처리시설의 설계)

  • Cho, Kwang Je;Kim, Sung Bo
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.32 no.3A
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    • pp.171-181
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    • 2012
  • The design of high strength underground septic tank stiffened by steel pipe is presented and the ultimate behavior is investigated according to the full scale experiments for three types of specimens. The limitation of the current design specification are pointed out and the general design procedure of private sewage treatment facility are newly developed considering thickness of FRP shell, types of steel pipe stiffer and diaphragm wall. The direct tensile and bending test for FRP material of septic tank were performed. The increase effect of ultimate strength due to the circular steel pipe are investigated by the full scale field test and compared with the results by the finite element analysis.