• Journal of Korean Tunnelling and Underground Space Association
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• v.20 no.5
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• pp.869-886
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• 2018

Rockbolt is one of the most common supports used to reinforce discontinuous rock during underground excavation. Extra drain pipes are installed to improve excavation workability and the anchorage of rockbolts in water bearing ground. The drain pipe is effective in improving the workability by providing drainage path, but it is difficult to expect the reinforcement effect, increasing disturbance of the discontinuous rock mass and the construction cost. To solve this problem, dual purpose rockbolt (DPR) has been developed for the reinforcement of rock and the drainage of ground water. DPR was able to improve the mechanical and hydraulic stability of the rocks quickly and economically. Two kinds of DPRs using FRP (Fiber Reinforced Plastic) and steel were investigated for the mechanical and hydraulic performance. Also, the workability and stability of DPR were analyzed.

• Journal of the Korean Geosynthetics Society
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• v.15 no.4
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• pp.53-62
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• 2016

This paper presents the results of a reduced-scale physical model investigation into the effect of drilling fluid with different mix designs for use in offshore bore hole collapse prevention. Compare the bentonite and Attapulgite use. Reduced-scale model tests were then carried out considering field procedures for cases with decomposed granitic soil with fines and a sand with various drilling fluids with different mix designs. The results were indicated that the addition of polymer to the bentonite based drilling fluid decreases the amount of injected drilling fluid and increases the final depth of excavation. Also revealed that the effect of polymer on the performance of drilling fluid is more pronounced in the decomposed granite soil with fines than sand. Practical implications of the findings from this study are discussed in detail.

• Journal of the Korean Geotechnical Society
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• v.39 no.4
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• pp.5-17
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• 2023

The advancement in large-scale underground excavation in urban areas necessitates monitoring and predicting technologies that can pre-emptively mitigate risk factors at construction sites. Traditionally, two methods predict the deformation of retaining walls induced by excavation: empirical and numerical analysis. Recent progress in artificial intelligence technology has led to the development of a predictive model using machine learning techniques. This study developed a model for predicting the deformation of a retaining wall under construction using a boosting-based algorithm and an ensemble model with outstanding predictive power and efficiency. A database was established using the data from the design-construction-maintenance process of the underground retaining wall project in a manifold manner. Based on these data, a learning model was created, and the performance was evaluated. The boosting and ensemble models demonstrated that wall deformation could be accurately predicted. In addition, it was confirmed that prediction results with the characteristics of the actual construction process can be presented using data collected from ground measurements. The predictive model developed in this study is expected to be used to evaluate and monitor the stability of retaining walls under construction.

• The Journal of the Convergence on Culture Technology
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• v.9 no.4
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• pp.537-542
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• 2023

Recently, deformation of operating railway structures has occurred due to adjacent excavation works such as new structures and utility tunnel expansion concentrated around downtown areas. However, most of them are focused on structural review, repair and reinforcement of structures. A review of the Track is insufficient. In particular, in the case of the gravel track on the earthwork subgrade, the subgrade and the ballast are not solidified. A slight level of deformation can cause ballast relaxation. Sleeper support conditions may lead to unstable conditions. Sufficient safety must be ensured. In addition, it is a track type with a high risk of train derailment due to unstable support conditions. In this study, the correlation between the deformation characteristics of gravel tracks and track support performance according to subgrade deformation is experimentally and analytically verified. In addition, an evaluation technique that can evaluate the condition of the gravel track and the track support stiffness is presented.

• Journal of Korean Tunnelling and Underground Space Association
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• v.12 no.4
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• pp.285-294
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• 2010

As there are increasing number of tunneling works these days, shotcrete is used as primary supports in order to secure the stability of tunnels. The quality of shotcrete has a direct influence on tunnels, because it is a primary support which secures the stability of completed tunnels as well as the stability of tunnels under excavation. Especially in case that ordinary shotcrete is used under weak rock conditions or at water gushing sections, more shotcrete is needed and rebound ratio increases. As a result, it is hard to keep economic feasibility. In addition to it, in subway construction, there are cases of separated excavation and it may have a bad influence on construction period or quality. Therefore, in this study, we are going to evaluate the early strength of powder type accelerator.

• Journal of Korean Tunnelling and Underground Space Association
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• v.24 no.5
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• pp.355-374
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• 2022

Soil conditioning improves the performance of EPB (earth pressure balance) shield TBMs (tunnel boring machines) by reducing shear strength, enhancing workability of the excavated soil, and supporting the tunnel face during EPB tunnelling. The mechanical and rheological behavior of the excavated muck mixed with additives should be properly evaluated to determine the optimal additive injection condition corresponding to each ground type. In this study, the laboratory pressurized vane test apparatus equipped with a vane-shaped rheometer was developed to reproduce the pressurized condition in the TBM chamber and quantitively evaluate rheological properties of the soil specimens. A series of the pressurized vane tests were performed for an artificial sand soil by changing foam injection ratio (FIR) and polymer injection ratio (PIR), which are the injection parameters of the foam and the polymer, respectively. In addition, the workability of the conditioned soil was evaluated through the slump test. The peak and yield stresses of the conditioned soil with respect to the injection parameters were evaluated through the rheogram, which was derived from the measured torque data in the pressurized vane test. As FIR increased or PIR decreased, the workability of the conditioned soil increased, and the maximum torque, peak stress, and yield stress decreased. The peak stress and yield stress of the specimen from the laboratory pressurized vane test correspond to the workability evaluated by the slump tests, which implies the applicability of the proposed test for evaluating the rheological properties of excavated soil.

• Journal of Korean Tunnelling and Underground Space Association
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• v.25 no.4
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• pp.285-303
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• 2023

Interest in building underground spaces is increasing for the creation of downtown infrastructure and efficient space utilization. A representative method of utilizing underground space is a tunnel, and in addition to road tunnels, the construction of utility tunnels such as power conduits and utility conduits is gradually increasing. The current basic tunnel construction method can be divided into NATM (New Austrian Tunnelling Method) and TBM (Tunnel Boring Machine). The NATM is a reliable method, but it is accompanied by vibration and noise due to blasting. In the case of the TBM excavation method, there are disadvantages in terms of construction period and construction cost, but it is possible to improve economic feasibility by introducing appropriate complementary methods. In this study, a blasting method was develop using the NATM after TBM pre-excavation using the protective shield method. This is a method that compensates for the disadvantages of each tunnel construction method, and is expected to reduce construction costs, blasting vibration, and noise. In order to review the performance of the developed method, an experiment was conducted to evaluate the performance of explosion-proof tube to which a protective shield scale model was applied, and the impact of blasting vibration of the protective shield method was analyzed.

• 한국방재학회:학술대회논문집
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• 2011.02a
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• pp.89-89
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• 2011

도로의 가드레일 지주 근입깊이의 부족에 의한 자동차의 전락사고 이 후, 일본의 국토교통성 등의 관계자들이 그 대책 세우기에 부심해 왔으나, 기설 지주의 근입깊이를 측정할 수 있는 방법은 아직까지 알려져 있지 않으며, 현재로서는 작업의 전 과정을 비디오로 촬영하여 그 기록을 남기도록 되어있다. 그러나 그것은 상당히 비효율적인 작업으로 엄밀한 감시기능을 다하지 못하고 있으며, 감독자와 시공자의 양자로부터 계측 도구의 개발이 절실히 요구되고 있다. 일부의 초음파 측정기 업자가 가드레일 지주의 근입깊이를 측정할 수 있다고 주장하고 있으나, 시장에는 아직 나타나지 않고 있으며, 그 측정시스템의 측정여부와 성능의 검증이 이루어지지 않고 있는 상황이다. 지금까지 충격탄성파법 또는 초음파법을 이용하여, 매설된 가드레일 지주의 근입깊이를 측정한 성공사례가 정식으로 보고된 바는 없으며, 같은 강관주인 눈사태 방지책의 지주 파이프에 대한 근입깊이의 측정은 본 연구그룹의 의해 행하여진 바가 있다. 검사봉이나 해머 등으로 대상물을 두드려서 탄성파를 발생시키고, 그것을 가속도계 또는 속도계의 진동센서로 감지하여 그 파형을 분석함으로써 대상물의 치수 등을 측정하는 충격탄성파법은, 특히 콘크리트를 대상으로 공동 및 매설물 등의 탐사, 균열깊이의 측정 등에 폭 넓게 사용되고 있다. 하지만 이 측정방법을 가드레일의 지주의 근입깊이 측정에 적용할 경우, 일반적으로 행하여지는 방법, 즉 진동센서를 대상물의 상단부(캡)에 설치하는 방법으로는 접합부에 의한 탄성파의 손실과 캡의 휨 진동에 의한 노이즈 등을 해결하기가 곤란해진다. 또한 지반의 존재로 인한 진동 모드의 변화와 진동에너지의 감소 등의 문제점을 해결하지 않으면 안 된다. 본 연구는 충격탄성파법을 이용하여 지반에 설치된 눈사태 방지책이나 가드레일의 지주와 같은 강관 구조물의 근입깊이를 측정하고자 하는 연구이다. 이를 위해 진동센서를 캡이 아닌 측면부에 취부장치를 이용하여 설치함으로써 길이방향의 탄성파를 측정할 수 있도록 하고, 실제 구조물에 대해 측정을 실시하여 그 측정시스템의 성능과 유용성을 검토하고자 한다. 또한 다양한 길이의 실험용 강관 파이프를 매설하고 측정실험을 실시하여 측정시스템의 적용성에 대해서도 검토하였다. 본 연구를 통하여, 수신센서를 파이프의 측면에 선접촉하게 함으로서 종파를 감지하여 근입깊이를 포함한 파이프의 전 길이를 측정하는 본 측정시스템은 매설된 강관 구조물의 길이 측정에 기본적으로 적용 가능함을 확인할 수 있었다. 특히 오거 굴착으로 시공된 경우에는 높은 정도의 측정성능을 보여주었다. 또한 항타관입 파이프에 대해서는 지반의 영향을 고려함으로써 길이의 측정이 가능하다는 것을 확인할 수 있었다. 즉, 오거 굴착 또는 항타 관입 등 시공방법에 따라 측정결과에 대한 지반의 영향 정도가 달라지며 파형 분석 및 길이 산정시 그 영향을 고려하여야 함을 확인하였다.

• Journal of Korean Tunnelling and Underground Space Association
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• v.26 no.1
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• pp.39-58
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• 2024

Tunnel Boring Machines (TBM) use multiple disc cutters to excavate tunnels through rock. These cutters wear out due to continuous contact and friction with the rock, leading to decreased cutting efficiency and reduced excavation performance. The rock's abrasivity significantly affects cutter wear, with highly abrasive rocks causing more wear and reducing the cutter's lifespan. The Cerchar Abrasivity Index (CAI) is a key indicator for assessing rock abrasivity, essential for predicting disc cutter life and performance. This study aims to develop a new method for effectively estimating CAI using rock strength, petrological characteristics, linear regression, and machine learning. A database including CAI, uniaxial compressive strength, Brazilian tensile strength, and equivalent quartz content was created, with additional derived variables. Variables for multiple linear regression were selected considering statistical significance and multicollinearity, while machine learning model inputs were chosen based on variable importance. Among the machine learning prediction models, the Gradient Boosting model showed the highest predictive performance. Finally, the predictive performance of the multiple linear regression analysis and the Gradient Boosting model derived in this study were compared with the CAI prediction models of previous studies to validate the results of this research.

• Journal of Korean Tunnelling and Underground Space Association
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• v.18 no.2
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• pp.165-173
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• 2016

This paper dealt with contents on the performance evaluation of standardized steel and non-standardized steel of lattice girder. Lattice girder is arch type tunnel supports made of structural steel bar and it is girder used to ensure the stability of tunnel by suppressing any transformation of ground as much as possible during tunnel excavation. The performance evaluation of lattice girder can be conducted through bending strength test, tensile strength test and tunnel standard specification specifies that welding structural steel with over 500MPa yield strength shall be used. However, it is difficult to distinguish visually between standardized steel and non-standardized steel onsite if low-quality structural steel is used. Accordingly, this paper conducted performance evaluation of standardized steel and non-standardized steel of lattice girder to point out the issue of deteriorated yield strength of non-standardized steel, while proposed a method of verifying yield strength onsite.