• Title/Summary/Keyword: Existing pile

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Research on non-destructive testing technology for existing bridge pile foundations

  • Zhang, Xue-feng;Ni, Ying-sheng;Song, Chunxia;Xu, Dong
    • Structural Monitoring and Maintenance
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    • v.7 no.1
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    • pp.43-58
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    • 2020
  • Pile foundations of existing bridges lie in soil and water environment for long term and endure relatively heavy vertical loads, thus prone to damages, especially after stricken by external forces, such as earthquake, collision, soil heap load and etc., and the piles may be injured to certain degrees as well. There is a relatively complete technical system for quality inspection of new bridge pile foundations without structures on the top. However, there is no mature technical standard in the engineering community for the non-destructive testing technology specific to the existing bridge pile foundations. The quality of bridge pile foundations has always been a major problem that plagues bridge maintenance. On the basis of many years' experiences in test engineering and theoretical studies, this study developed a new type of detection technology and equipment for the existing bridge piles.

Estimation of field application for the PHC pile backfill recycling In-site soil (현장 발생토를 재활용한 PHC파일 채움재의 현장 적용성 평가)

  • Choi, Hee-Bok;Noh, Chang-Suck;Han, Byung-Kwon;Lee, Hong-Gyu
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2011.05b
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    • pp.63-66
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    • 2011
  • The aim of this study is to estimate the field applicability of PBFM to replace in-site soil with pile backfill used to replace the existing cement paste. As results, the flowability, segregation and bleeding, and bond strength of PBFM was a good performance than that of the existing cement paste. But the skin friction of pile by Pile Driving Analyzer (PDA) and compressive strength was slightly decreased than that of the existing cement paste. However, as pile backfill materials, and in terms of economics and environment, the applicability of PBFM is considered very effective.

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Reinforcement effect of micropile and bearing characteristics of micropiled raft according to the cohesion of soil and stiffness of pile

  • KangIL Lee;MuYeun Kim;TaeHyun Hwang
    • Geomechanics and Engineering
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    • v.37 no.5
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    • pp.511-525
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    • 2024
  • Micropiled raft has been used to support the existing and new structures or to provide the seismic reinforcement of foundation systems. Recently, research on micropile or micropiled raft has been actively conducted as the usage of micropile has increased, and the reinforcement effect of pile for the raft, the pile installation methods, and methods for calculating the bearing capacity of micropiled raft have been proposed. In addition, existing research results show that the behavior of this foundation system is different depending on the pile conditions and can be greatly influenced by the characteristics of the upper or lower ground depending on the conditions of pile. In other words, considering that the micropile is a friction pile, it can be predicted that the reinforcing effect of micropile for the raft and the bearing capacity of micropiled raft may depend on the cohesion of upper soil layer depending on the pile conditions. However, existing studies have limitations in that they were conducted without taking this into account. However, existing studies have limitations as they have been conducted without considering these characteristics. Accordingly, this study investigated the reinforcing effect of micropile and the bearing characteristics of micropiled raft by varying the cohesion of upper soil layer and the stiffness of pile which affect the behavior of micropiled raft. In this results, the reinforcing effect of micropile on the raft also increased as the cohesion of soil layer increased, but the reinforcing effect of pile was more effective in ground conditions with decreased the cohesion. In addition, the relationship between the axial stiffness of micropile and the bearing capacity of micropiled raft was found to be a logarithmic linear relationship. It was found that the reinforcing effect of micropile can increase the bearing capacity of raft by 1.33~ 3.72 times depending on the cohesion of soil layer and the rigidity of pile.

A Study on the Load Distribution Ratio and Axial Stiffness on Existing and Reinforcing-Pile in Vertical Extension Remodeling (수직증축시 기존말뚝과 보강말뚝의 하중분담율 및 축강성 분석)

  • Jeong, Sang-Seom;Cho, Hyun-Cheol
    • Journal of the Korean Geotechnical Society
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    • v.35 no.1
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    • pp.17-30
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    • 2019
  • This study presents the application of the numerical and analytical technique to simulate the Load Distribution Ratio (LDR) and to define axial stiffness on reinforcing pile foundation ($K_{vr}$) in vertical extension remodeling structure. The main objective of this study was to investigate the LDR between existing piles and reinforcing piles. Therefore, to analyze the LDR, 3D FEM analysis was performed as variable for elastic modulus, pile end-bearing condition, raft contacts, and relative position of reinforcing pile in a group. Also, using the axial stiffness ($K_{ve}$) of existing piles, the axial stiffness of reinforcing pile was defined by 3D approximate computer-based method, YSPR (Yonsei Piled Raft). In addition $K_{vr}$ was defined by reducing the $K_{ve}$considering the degradation of the existing piles.

Characteristics of Driving Efficiency and Bearing Capacity for Non-welded Long Steel Pipe Pile Method (무용접 장대강관말뚝 공법의 항타 및 지지력 특성)

  • 백규호;이상일;박진석
    • Proceedings of the Korean Geotechical Society Conference
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    • 1999.10a
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    • pp.381-388
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    • 1999
  • The existing methods for installation of long steel pipe pile have some uneconomical problems such as increase of installation cost and period due to the welding of two piles and removal of soil plug, and decrease of driving efficiency due to the increase of driving resistance by time effect during the welding of piles and removal of soil plug, etc. Thus, in this study, new installation method for long steel pipe pile is suggested to work out the existing problems, and calibration chamber tests are peformed to investigate both driving and economical efficiency for the suggested method. The test results showed that the new installation method has increase bearing capacity as well as reduce installation cost and period for long steel pipe piles as compared with existing methods.

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A Study of Micro-piles Method combined with the Resisting Fixture interacting the power of frictional resistance in a contrary direction (양방향 저항체를 결합한 마이크로파일공법 연구)

  • Baik, Dong-Ho;Lee, Sang-Moo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2014.05a
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    • pp.74-75
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    • 2014
  • In remodeling business or construction of both new strucures and existing structures, Case that pile foundation was set is often. Micro pile, holding compressive force and tensile force by spherical friction, is supported by skin friction rather than end bearing capacity. but, This is weak in tension. Active area of micro pile's skin friction is narrow and micro pile don't do unification behavior hence. So bearing capacity was not fully mobilized in existing researching. In this study, in order to compensate for this method, micro pile to install Resisting Fixture is proposed.

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Study on the behaviour of pre-existing single piles to adjacent shield tunnelling by considering the changes in the tunnel face pressures and the locations of the pile tips

  • Jeon, Young-Jin;Jeon, Seung-Chan;Jeon, Sang-Joon;Lee, Cheol-Ju
    • Geomechanics and Engineering
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    • v.21 no.2
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    • pp.187-200
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    • 2020
  • In the current work, a series of three-dimensional finite element analyses have been conducted to investigate the behaviour of pre-existing single piles in response to adjacent tunnelling by considering the tunnel face pressures and the relative locations of the pile tips with respect to the tunnel. Via numerical modelling, the effect of the face pressures on the pile behaviour has been analysed. In addition, the analyses have concentrated on the ground settlements, the pile head settlements and the shear stress transfer mechanism at the pile-soil interface. The settlements of the pile directly above the tunnel crown (with a vertical distance between the pile tip and the tunnel crown of 0.25D, where D is the tunnel diameter) with a face pressure of 50% of the in situ horizontal soil stress at the tunnel springline decreased by approximately 38% compared to the corresponding pile settlements with the minimum face pressure, namely, 25% of the in situ horizontal soil stress at the tunnel springline. Furthermore, the smaller the face pressure is, the larger the tunnelling-induced ground movements, the axial pile forces and the interface shear stresses. The ground settlements and the pile settlements were heavily affected by the face pressures and the positions of the pile tip with respect to the tunnel. When the piles were inside the tunnel influence zone, tensile forces were induced on piles, while compressive pile forces were expected to develop for piles that are outside the influence zone and on the boundary. In addition, the computed results have been compared with relevant previous studies that were reported in the literature. The behaviour of the piles that is triggered by adjacent tunnelling has been extensively examined and analysed by considering the several key features in substantial detail.

A Study on the Behavior of a Noise & Vibration-Free Screw Pile Method by Means of numerical analysis (무소음.무진동 스크류말뚝공법의 수치해석에 의한 거동 연구)

  • Kim, Young-Pil;Jung, Ho-Young;Ha, Young-Min;Oh, Seung-Ryul;Choi, Yong-Kyu
    • Proceedings of the Korean Geotechical Society Conference
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    • 2009.03a
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    • pp.30-37
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    • 2009
  • In doing the foundation work in the downtown, the popular complaints by means of Noise and vibration have been became heavy burden. Therefore, the noise & vibration-free screw PHC pile method will contribute to the foundation work by removal of the popular complaints and improvement of the constructability. In this paper, the load bearing capacity and displacement characteristics of the noise & vibration-free screw PHC pile were analyzed. The noise & vibration-free screw PHC pile's behavior was better well than the existing PHC pile's one.

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Proposed Deterioration-induced Axial Stiffness of Existing Piles in Vertical Extension Structures (수직증축 공동주택 하부 기존말뚝의 열화를 고려한 축강성 제안)

  • Jeong, Sang-Seom;Kim, Do-Hyun;Cho, Hyun-Chul
    • Journal of the Korean Geotechnical Society
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    • v.35 no.12
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    • pp.25-33
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    • 2019
  • In this study, the axial stiffness of existing piles (Kve) of vertical extension remodeled building was quantified through theoretical and experimental approaches. Theoretically induced upper and lower boundary of the pile axial stiffness was estimated by using the formula proposed by Randolph and Wroth (1978), which can estimate the axial stiffness of rigid and flexible pile subjected under soil confinement. In addition, 38 cases of field measurement data on deteriorated piles with various diameters constructed in the period between 1995 - 1997 were taken in to account by overlapping the field data with the theoretical boundary of the axial stiffness. Through this the maximum axial stiffness of existing pile due to deterioration and long service time was presented for various slenderness ratio (L/D), which can be used in estimating the necessary axial stiffness of reinforcing piles(Kvr) for the vertical extension remodeling. The lower 95% value of the estimated axial stiffness of existing pile will be induced through statistical processing.

Structural Modeling Experiments and Field Adaption Evaluation of Steel Cap for Performance Development of PHC Pile (PHC Pile 두부 성능개선을 위한 파일캡의 구조모델시험 및 현장 적용성 평가)

  • Kwon, Hyuk-Joon;An, Seon-Hee
    • Proceedings of the Korea Concrete Institute Conference
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    • 2006.05a
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    • pp.630-633
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    • 2006
  • In this study, we concerned the steel cap and head part arrangement of PHC pile structure to complement existing construction process which have the defects such as highly hazardous circumstance for safety concerns and retard a term of works. The steel cap developed for supplement the stiffness between extend foundation and contact section of PHC pile that is based on structural theory. The experiments have been performed to evaluate the characteristics of behavior between head part of PHC pile using steel cap and extend foundation.

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