• Title/Summary/Keyword: PC stranded wire

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Tunnel pillar reinforcement effect using PC stranded wire and groutings (PC강연선 및 그라우팅을 이용한 터널 필라부 보강효과)

  • Yeon-Deok Kim;Soo-Jin Lee;Pyung-Woo Lee;Hong-Su Yun;Sang-Hwan Kim
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.25 no.2
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    • pp.43-63
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    • 2023
  • With the concentration of the population in the city center and the saturation of the structures on the ground, the development of the underground structures becomes important and the construction of an adjoining tunnel that can reduce the overall problems is respected. In addition, it is necessary to apply the reinforcement construction method for the pillar part of the adjacent tunnel that can secure stability, economy and workability of the site. In this study, the tunnel pillar reinforcement method using prestress and grouting was reviewed. There are various reinforcement methods that can compensate for the problems of the side tunnel, but as the tunnel pillar construction method using prestress and grouting is judged to be excellent in field applicability, stability and economic feasibility, theoretical and numerical analysis of the actual behavior mechanism are conducted. Numerical analysis is divided into PC stranded wire + steel pipe reinforcement grouting + prestress (Case 1), pillar part tie bolt reinforcement (Case 2), pillar part non-reinforcement (Case 3) under the same ground conditions, and the maximum value of the celling displacement, internal displacement, and member force, the stability was confirmed. Through numerical analysis, it was confirmed that Case 1 which reinforced the PC stranded wire, was the best construction method and if it is verified and supplemented through field experiments later, it will be possible to derive superior results in terms of displacement control and member force than the currently applied reinforcement method was judged.

Reduced model experiment to review applicability of tunnel pillar reinforcement method using prestress and steel pipe reinforcement grouting (프리스트레스 및 강관보강 그라우팅을 이용한 터널 필라부 보강공법의 적용성 검토를 위한 축소모형 실험)

  • Kim, Yeon-Deok;Lee, Soo-Jin;Lee, Pyung-Woo;Yun, Hong-Su;Kim, Sang-Hwan
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.24 no.6
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    • pp.495-512
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    • 2022
  • Due to the concentration of population in the city center, the aboveground structures are saturated, and the development of underground structures becomes important. In addition, it is necessary to apply the reinforcement construction method for the pillar part of the adjacent tunnel that can secure stability, economy, and workability to the site. In this study, the tunnel pillar reinforcement method using prestress and grouting was reviewed. There are various reinforcement methods that can compensate for the problems of the side tunnel, but as the tunnel pillar construction method using prestress and grouting is judged to be excellent in field applicability, stability, and economic feasibility, it is necessary to review the theoretical and numerical analysis of the actual behavior mechanism. Therefore, a scaled-down model experiment was conducted. The reduced model experiment was divided into PC stranded wire + steel pipe reinforcement grouting + prestress (Case 1), PC strand + steel pipe reinforcement grouting (Case 2), and no reinforcement (Case 3), and the displacement of the pillar and the earth pressure applied to the wall were measured. Through experiments, it was confirmed that the PC stranded wire + steel pipe reinforcement grouting + prestress method is the most excellent reinforcement method among various construction methods. It was judged that it could be derived.

Study on Stress Recovery Length of 7-Wire Strand due to Local Damage (강연선의 국부적 손상에 따른 응력 회복길이 분석 연구)

  • Seo, Dong-Woo;Kim, Byung-Chul;Jung, Kyu-San;Na, Wongi;Park, Ki-Tae
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.18 no.12
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    • pp.150-156
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    • 2017
  • This study examined the stress recovery length due to the local damage of a 7-wire strand, which is applied widely to PSC (Post Tensioned Concrete) bridges and cable-stayed bridges. The 7-wire strand is a multiple stranded steel of PC prestressing strand. Owing to the nature of the material, it is damaged continuously after completion with corrosion being the main cause of damage. On the other hand, due to its structural characteristics, it is difficult to grasp the degree of damage inside the cable and the pattern of stress variation. In the case of cables applied to bridges, the parts that are susceptible to corrosion are generated depending on the water supply and installation shape, which may cause local damage. This study analyzed the tendency of performance degradation and stress recovery length according to local damage of a 7-wire strand, which is applied mainly to bridge post-tensioning or stay cables. This study developed a computer-based simulation model that was validated with experimental results. The model developed in this study can be used to evaluate the safety level and estimate the remaining life span of P SC bridges or cable-stayed bridges.