주암호의 복교지점에서 2000년의 여름성층은 태풍 Prapiroon에 의해 파괴되었다. 성층의 파괴는 수체의 물리, 화학적 성질을 바꾸고 생물상의 변화를 유발시켰다. 투명도는 태풍 전에는 195 cm였는데 태풍 후 84 cm로 줄었는데, 이는 강한 바람에 의한 수체의 수직혼합으로 저층의 퇴적물이 부유되면서 투명도를 감소시킨 때문으로 추측된다. 식물플랑크톤 개체수의 수직분포에서는 태풍 전에는 수심 2 m에서 최대의 개체수가 조사되었었지만 태풍 직후에는 특정 수심의 peak가 없이 전 수층에 고른 분포를 하다가 재성층이 이루어진 후 다시 표수층>수온약층>심수층의 분포를 보여주었고 최고의 개체수는 수심 1 m에서 관찰되었다. 식물플랑크톤의 탄소생물량도 수심 2 m 부근에서 가장 많다가 태풍 직후에는 전 수층에 고루 분포하였고, 재성층 후 다시 표층에 가장 높은 생물량을 보여주었다. 클로로필 a의 농도는 태풍 전후에 큰 차이가 없는 것으로 나타났다. 태풍에 의한 성층과 재성층은 식물플랑크톤의 분류군 조성도 변경시켰는데, 태풍 전의 주요 우점 식물플랑크톤은 Aulacoseira granulata를 비롯한 규조류였으나 태풍이 지나간 후 녹조류가 세포수와 생물량에서 규조류를 압도하였고, 이후 강우와 수온의 하강으로 성층이 교란되면서 Microcystis aeruginosa에 의한 남조류의 절대 우점으로 천이 되었다.

PURPOSES: The objective of this study is to evaluate the properties of eco-friendly waterproofing materials for bridge decks. METHODS: Various waterproofing materials and construction methods that are widely used in Korea were evaluated. Then, the problems in field application were identified. In order to solve these problems, it is necessary to improve constructability and stability. Thus, the properties of heating waterproofing membranes and waterproofing systems using recycling additives were evaluated. In addition, a field test was conducted to ensure the construct-ability and stability. RESULTS AND CONCLUSIONS : Waterproofing materials were developed using waste tires and carbon black the results of the softening point test, tensile adhesion test, and shear adhesion test. A new sheet system, which consists of mesh and vinyl, was also determined from the sheet test. The properties of waterproofing materials were better than those developed under the "A Asphalt Concrete Pavement Construction Guidelines" according to the results of laboratory tests and the report of the authorized testing agency. Finally, the field test showed that the materials met quality standards. In future research, it will be necessary to conduct continuous field tests and follow-up inspections.

The paper presents the damage estimation of bridge structures in Daegu city based on the scenario-based earthquakes. Since the fragility curves for domestic bridge strucures are limited, the Hazus methodology is employed to derive the fragility curves and estimate the damage. A total of four earthuquake scenarios near Daegu city are assumed and structure damage is investigated for 81 bridge structures. The seismic fragility function and damage level of each bridge had adopted from the analytical method in HAZUS and then, the damage probability using seismic fragility function for each bridge was evaluated. It was concluded that the seismic damage to bridges was higher when the magnitude of the earthquake was large or nearer to the epicenter.

PURPOSES: A methodology using a 3D-engineering technique was developed for implementation in paving Quality Control (QC) practice in bridge overlay paving. METHODS: The as-built surface of a concrete-box-girder bridge tends to exhibit a certain level of undulation or roughness. This is usually caused by the inevitable limitation that camber prediction and construction cannot be perfectly matched. The undulation itself would not be a severe defect in a bridge structure, but it results in a challenge for achieving overlay pavement qualities such as pavement thickness and smoothness. One advantage of the 3D-engineering technique is that it allowed identification in advance, of conditions that will interfere with construction, thus preventing non-conformance qualities from being re-worked. RESULTS : Utilizing this technique, overlay paving was virtually simulated in advance, and insufficient thickness areas and rough sections were visually identified. Paving quantities were automatically computed. Paving level alternatives were correspondingly established based on analysis of the quantitative and 3D visual outputs. CONCLUSIONS: This study showed that this methodology could be successfully utilized for optimizing paving quantity and quality

인적오류는 해양사고의 중요한 원인이고, 인적오류의 식별은 해양사고 예방에 근간이 된다. 특히, 선교팀(항해사와 조타수)이 주어진 상황에서 취한 기술적인 행동 패턴은 인적오류 식별에 중요한 정보를 제공한다. 본 연구의 목적은 익수자 구조를 위한 윌리암슨 선회법(Williamson’s Turn)을 이용하여 선교팀들의 기술적인 행동 패턴을 식별하고 분석하기 위한 것이다. 이를 위한 본 연구의 핵심은 실험을 실시하는 과정에서 나타난 선교팀의 인적 행동 요인에 대한 인지모델을 구축하고 분석하는 것이다. 실험환경은 선박조종 시뮬레이터를 이용하여 구축하고, 24개 선교팀으로 구성된 참가자들을 대상으로 실험을 진행하였다. 실험결과, 방향타와 기관을 사용한 항적유지와 선박조종에 대한 행동 패턴을 식별할 수 있었다. 본 연구는 선원의 자격 및 훈련에 적용하여 선교팀의 인적오류를 보완하고 보정하는데 기여할 수 있을 것으로 기대된다.

구조물의 『3차원 설계』는 성공적인 BIM(building information modeling) 정착을 위한 핵심 기술이다. 이를 위해 다양한 BIM 라이브러리들이 개발되고 있지만 선형기반으로 구조물이 가설되는 교통 인프라의 설계업무에 적용하기에는 한계가 있다. 상용화된 BIM 소프트웨어들이 지원하는 라이브러리를 계획된 선형을 기반으로 구조물이 가설되는 교통 인프라의 설계 업무에 적용하는 것은 사용성 측면에서 한계가 있다. 더욱이 조합을 고려하지 않고 개발된 라이브러리로 생성된 모델은 다양한 설계변경 상황에 대응하기가 쉽지 않다. 따라서 본 논문에서는 교통인프라 구조물인 철도 교량을 대상으로, 유관 시설 또는 부재에 대한 3차원 객체를 설계변경에 효율적으로 대처할 수 있도록 매개변수 기법을 적용한 ‘BIM기반 3D 모델 생성 자동화 모듈’을 구축하였다. 모듈의 주요기능은 기준선형을 바탕으로 기준경로를 도출하고 다른 객체와의 조합을 고려하여 목표객체를 연장 및 배열하는 것이다. 또한 모듈의 조합으로 구성된 철도교량의 통합모델에 대하여 설계변수를 입력할 수 있는 사용자 인터페이스를 구성하여 설계변경 대응능력에 대한 적용성을 검증하였다.

콘크리트사장교는 높은 자중에 비해 낮은 강성도를 가지더라도 저 형고의 단면으로 설계한다. 콘크리트사장교 케이블은 보강거더에 정착되는 케이블위치의 작은 변화에도 큰 장력변화를 나타낸다. 본 연구는 케이블 장력변화가 최소화할 수 있는 정착위치 결정이 목적이다. 이를 위하여 4개소의 보강거더 정착위치, 8개의 케이블 초기장력 및 90개의 시공단계에 대하여 구조거동을 분석하였다. 4개소의 케이블 정착위치를 분석한 결과, 정착위치가 도심하단으로 내려갈수록 케이블의 시공장력이 구조안정성을 좌우한다. 반대로 도심위에 정착장치를 설치할수록 케이블의 완성장력이 지배적이다. 결론적으로 정착위치가 보강거더 상단에 위치할수록 시공과 완성 케이블 장력편차가 다른 정착위치보다 가장 작게 발생하였다.

The arched stone bridge has been continuously deteriorated and damaged by the weathering and corrosion over time, and also natural disaster such as earthquake has added the damage. However, masonry stone bridge has the behavior characteristics as discontinuum structure and is very vulnerable to lateral load such as earthquake. So, it is necessary to analyze the dynamic behavior characteristics according to various design variables of arched stone bridge under seismic loads. To this end, the arched stone bridge can be classified according to arch types, and then the discrete element method is applied for the structural modelling and analysis. In addition, seismic loads according to return periods are generated and the dynamic analysis considering the discontinuity characteristics is carried out. Finally, the dynamic behavior characteristics are evaluated through the structural safety estimation for slip condition.

This paper presents a framework for developing aftershock fragility curves for reinforced concrete bridges initially damaged by mainshocks. The presented aftershock fragility is a damage-dependent fragility function, which is conditioned on an initial damage state resulting from mainshocks. The presented framework can capture the cumulative damage of as-built bridges due to mainshock-aftershock sequences as well as the reduced vulnerability of bridges repaired with CFRP pier jackets. To achieve this goal, the numerical model of column jackets is firstly presented and then validated using existing experimental data available in literature. A four-span concrete boxgirder bridge is selected as a case study to examine the application of the presented framework. The aftershock fragility curves are derived using response data from back-to-back nonlinear dynamic analyses under mainshock-aftershock sequences. The aftershock fragility curves for as-built bridge columns are firstly compared with different levels of initial damage state, and then the post-repair effect of FRP pier jacket is examined through the comparison of aftershock fragility curves for as-built and repaired piers.

The objective of this study is to develop the innovative application methodology of Geofoam for sustainable design of eco-bridges under deep soil cover. Traditionally, the soft maerial zone has been located on the top or above the buried conduit to reduce the earth pressures, which is called imperfect trench installation (ITI). There, however have been no previous studies for the application of ITI on buried arch structures. This study investigated the structural effects of Geofoam surrouding buried arch bridges, which was named as embedded trench installation (ETI). Various shapes and locations of Geofoam have been investigated for both ETI and ITI. The findings from this study showed that ETI could effectively increase the stability and sustainability of deeply buried eco-bridges.

The recent increase in truck traffic volume and overloading frequency causes a growing need to re-evaluation of fatigue life of steel bridges. However, the traditional fatigue analysis method, that is cumulative damage method(CDM), has limitation to apply to a number of bridges because the required calculation steps are very cumbersome and complicated. This study investigates the feasibility and applicability of proposed simple fatigue evaluation method based on the equivalent damage method (EDM) in Eurocode to estimate the remaining fatigue life for a highway bridge. The Proposed fatigue life evaluation method is as follows; 1. Calculation of fatigue resistance 𝛾𝑀f and fatigue strength Δ𝜎𝑐 used in design, 2. Calculation of partial safety factor 𝛾𝐹f for equivalent stress range, 3. Calculation of stress range Δ𝜎𝐸2 using influence line, 4. Calculation of damage equivalent factor λ, 5. Review of Fatigue state and evaluation of fatigue life. The specifications of the target bridge are as follows; Location : Gyeongbu Expressway, Design Life : 100yr, Construction year : 2006, Total length : 341m, Type of superstructure : continuous steel box girder. The resulting remaining fatigue life estimated by both EDM and CDM have been compared. Remaining fatigue life of target bridge in 2016 was calculated 365yr(EDM using WIM data in 2014), 334yr(CDM using strain gauge data in 2012 and reflecting 2% annual traffic volume increase, Gil and Kang(2012)). As a result of comparison, The remaining fatigue life using proposed method(EDM) was evaluated about 10% higher than the CDM. This result, because traffic volume increase had not reflected when calculation of remaining fatigue life using EDM. Proposed method(EDM) can evaluate remaining fatigue life more easily and simply than CDM.

In Korea, a vehicle overtaking is prohibited by the law in tunnel and bridge sections where a road section has lanes with solid line. However, this regulation has some problems in terms of traffic operation and safety. So, it is necessary to find a way to improve the lane operation in tunnel and bridge sections. The objective of this research is to propose a systematical logic and specific standards to draw up an improvement of lane operation in tunnel and bridge sections on expressways. For that purpose, the status of lane operation in tunnel and bridge sections on both of the domestic and the abroad expressways and the improvement effect of the lane management were analyzed and, followed by it, the ways to improve lane management were suggested. In the comparison of the number of traffic accidents between road sections and tunnel sections, it was resulted that the number of traffic accidents per unit length (1km) of tunnel sections was lower than that of road sections. In addition, in the comparison of the fatality of traffic accidents, the fatality of tunnel sections on expressways was lower than that of other road tunnel sections. Through the analysis, it was resulted that there was a low correlation between the permission of the lane change in tunnel sections and the increase of traffic accidents. Moreover, in the comparing the traffic accidents between expressway tunnels and other road tunnels as well as between road sections and tunnel sections on expressways, there was no significant difference in safety between the solid line sections and the dotted sections. As a result of the analysis on the pilot operation section, it was expected that there would be no serious problems even if the permission of the lane change in tunnel and bridge sections was implemented, because the difference between in the existing solid-line sections and the pilot dotted line sections in terms of the lane change rate, the traffic characteristic, and the traffic accidents is not significant. Therefore, it needs to improve the current solid-line lane operation forbidding the lane change in tunnel and bridge sections. It is necessary to allow the lane change in tunnel and bridge sections with an appropriate level of facility conditions. In the long run, as in the cases of foreign countries, it is require to establish a principle to permit the lane change in tunnel and bridge sections. However, if necessary, it is need to consider the prohibition of the lane change in some tunnel sections by the engineering judgment. Allowing the lane change of the car in tunnel sections is not only merely a change of the lane operating method but also it is expected to be an important opportunity to increase the adherence of the driver to the laws and regulations and to change the drive culture by introducing a consistent traffic regulation.

The Golden Gate Bridge, known as one of the most beautiful bridges in the world, serves 110,000 vehicles per day, connecting San Francisco to inland as a segment of Highway 101 in California. The average peak hour volume over 6,500 vehicles per hour exceeds the traffic capacity of three lanes on each direction. Due to unique function of the bridge as a gateway of San Francisco, the peak directions in the morning and afternoon were explicitly distinguished. Recurrent traffic delay on the peak direction deteriorated level of service during the commute periods and caused user’s inconvenience and traffic accidents. The workers previously used to move plastic delineators to change lane configuration (4-2, 3-3, and 2-4) in several times a day. Neither did it provide prevention nor physical protection from the head-on collision on the bridge section. In January 2015, the Golden Gate Bridge was completely closed for two days to install the moveable median barrier (MMB) system, Road Zipper®, for more effective and safer variable lane management than the previous operation. One-meter section with 30.48 cm wide of highly reinforced concrete barriers are linked to form a continuous barrier wall and the machine lifts and passes the barriers through a conveyor system at a seeds up to 16 km/h. The MMB enables to quickly reverse lane configuration without traffic closure, providing more lanes to the peak direction as well as eliminating head-on collision on the bridge deck by presence of a physical structure. The traffic monitoring study result shows the significant improvement of average speed during peak hours and the regional traffic accident records shows improvement of safety after implementing the MMB on the Golden Gate Bridge. According to the traffic accident records, 13 injuries occurred in five accidents of vehicle collision in two-directions from 2007 to 2014 but no two-way accident has been reported since the operation of the Road Zipper® began. Furthermore, the MMB would be effectively implemented on construction work zones, managed lanes, variable lane management and other traffic operation to improve traffic safety and maximize utilization of roadway facilities.

해상교량 하부의 직선항로 길이 확보는 선박 통항 안전을 위한 중요한 요소 중 하나이다. 그러나 항만 및 어항 설계기준에 따르면 해상교량 하부 직선항로 길이는 선박길이의 8배로 획일적인 가이드라인을 적용하고 있다. 본 연구는 적정 해상교량 하부 직선길이를 도출하기 위해 ES 모델을 이용하여 항로폭, 통항량, 항로의 곡률, 직선항로길이에 따른 위험도 비율을 확인했다. 확인 결과 항로의 곡률이 45°의 경우 항로길이가 3L에서 10L로 길어짐에 따라 위험도 비율이 2.27 % 감소했다. 곡률에 따른 위험도는 직선항 로의 길이가 3L의 경우 곡률이 45°에서 0°로 변하면서 위험도 비율이 4.83 % 감소하는 것을 확인했다. 또한 항로폭 400 m, 시간당 발 생선박이 20척의 조건에서 항로의 곡률별, 직선항로에 따른 위험도 비율은 최대 1.45 % 감소하는 것을 확인했다. 이를 통해 해상 교량 건설 시 항로의 혼잡도 및 곡률에 따라 일정 길이 이상의 직선항로가 필요함을 검증했다.

In this study, The recent national interest is focused on the welfare of the people, and new projects in the construction sector are being reduced, and the aging of infrastructure is not getting attention. In domestic case, most of the infrastructures were built in the 1970s to 1980s, and the road extension is also steadily increasing. Therefore, the costs to bridge maintenance from around 2010 by a similar route to that of advanced countries are also 4 times And it is time to pay attention to maintenance as well as construction. Therefore, a study was carried out on the valuation method considering bridge condition evaluation, which is a part of BIM library building and assembly program development. The proposed value evaluation method will be used as an index of the existence of bridges by comparing the cost required for maintenance and reinforcement of the target bridges and the costs required for dismantling and disposal in the bridge management system of the future program

In this study, to develop the basis of damage prediction system for abutment type rigid-frame bridge, measurement data is generated by artificially expressing damage by Abaqus, a commercial structural analysis program, and applied to machine-learning. The rigid-rame bridge structural analysis model is expressed as closely as possible to the actual bridge condition considering the specification, damage expression, analysis method, boundary condition, and load. CNN(Convolutional Neural Network), one of the neural network algorithm, is used for machine-learning and accuracy is confirmed when there was no measurement error as a result of machine learning.

자갈 궤도는 부설 후 궤도틀림이 발생하여 지속적인 유지·보수 작업이 필요하다. 이를 개선하기 위하여 기존의 자갈 궤도 에 급속경화 모르타르를 주입하여 단시간 내에 콘크리트 궤도로 치환할 수 있는 급속경화궤도가 개발되었다. 교량에 부설되 는 급속경화궤도는 교량과 궤도의 거동을 일치시키기 위하여 후설치 앵커를 궤도 세그먼트 중앙부에 시공한다. 본 논문은 앵커로 교량과 연결된 급속경화궤도와 교량의 궤도-교량 상호작용 해석을 수행하여 레일 및 앵커의 안전성을 검토하였다. 이때 앵커의 강성 및 강도, 급속경화 콘크리트의 재령, 급속경화궤도와 교량 사이의 마찰을 고려하였다. 이를 바탕으로 급속 경화궤도 부설 후 적절한 앵커의 설치시기 및 열차 정상운행 가능시기를 검토하였다.