This paper introduces general concepts of jointless bridges and field construction case of semi-integral bridge with psc girder integrating end-diaphragm. The expansion joints need to satisfy thermal and safety conditions of bridges. General bridges with joints have some problems, which are frequently replacement cycle time from mechanical damage or unstable movement, maintenance cost and more. To solve these problems, Integral Abutment Bridges(IAB) have been applied overseas in the 1930s. In Korea, first IAB was constructed in the early 2000s and precast IAB systems was invented and applied lately. Kyungshin overpass bridge in Incheon is the Semi-IAB constructed, the span length is 2@35=70m and the width is 13.9m. The original plan was to use general joint bridge but design field changed with expectations for advanced economic estimation and maintenance. This changed method of B.I.B bridge construction provided not only workability, construction cost but also safety improvement at the same time.

This paper introduces general concepts of Jointless Bridges and field construction case of Semi-Integral Bridge with PSC girder integrating end-diaphragm. The expansion joints need to satisfy thermal and safety conditions of bridges. General bridges with joints have some problems, which are frequently replacement cycle time from mechanical damage or unstable movement, maintenance cost and more. To solve these problems, Integral Abutment Bridges(IAB) have been applied overseas in the 1930s. In Korea, first IAB was constructed in the early 2000s and precast IAB systems was invented and applied lately. Kyungshin overpass bridge in Incheon is the Semi-IAB constructed, the span length is 2@35=70m and the width is 13.9m. The original plan was to use general joint bridge but design field changed with expectations for advanced economic estimation and maintenance. This changed method of B.I.B bridge construction provided not only workability, construction cost but also safety improvement at the same time.

Torque control method and turn of nut method are specified as clamping method of high strength bolts in the steel construction specifications. Quality control of torque coefficient is essential activity because torque control method, which is presently adopted as clamping method in domestic construction sites, is affected by variation of torque coefficient. This study was focused to evaluate the effect of environmental factors and errors of installing bolts during tightening high strength bolts. The environmental parameters were composed of 'wet' condition, 'rust' condition, 'only exposure to air' condition.

Pultruded glass fiber reinforced polymeric plastic (PFRP) and FRP member manufactured by sheet molding compound (SMC) have superior mechanical and physical properties compared with those of conventional structural materials. Since FRP has an excellent corrosion-resistance and high specific strength and stiffness, the FRP material may be highly appreciated for the development of floating-type photovoltaic (PV) power generation system. In this paper, advanced floating PV generation system made of PFRP and SMC is designed. In the design, it includes tracking solar altitude by tilting photovoltaic arrays and tracking solar azimuth by spinning structures. Moreover, the results of the finite element analysis (FEA) are presented to confirm stability of entire structure under the external loads. Additionally, installation procedure and mooring systems in the Hap-Cheon Dam are discussed and the measurement of strain under the actual circumstances is conducted for assuring stability of actually installed structures. Finally, by comparison with allowable stress, appropriate safety of structure is confirmed to operate the system.

6 sigma is a management innovation strategy which improves most of all managerial processes including transactional and project based operations such as marketing, purchasing, accounting, and construction. Even though 6 sigma is trying to solve problems from the customer’s viewpoint in the scientific manner, project leader feels some difficulties in implementation because of several reasons. Especially the difficulties are prevalent in construction site. This paper investigates the cause of the difficulties through questionnaires, analyzes the investigation results, and verifies the critical success factors of 6 sigma implementation. Factor analysis has been usually employed in reducing quantity of data and summarizing information chaos. In this study, several variables from questionnaires are grouped into just only four factors by the process of factor analysis. The critical success factors are extracted as project management system, implementation mechanism, site condition, and project ownership. Some ideas for each individual success factor are suggested, which are expected to be useful in successful implementation of 6 Sigma in construction site.

PURPOSES : About 35% of air pollutant is occurred from road transport. NOx is the primary pollutant. Recently, the importance of NOx removal has arisen in the world. TiO2 is very efficient for removing NOx by photocatalytic reaction. The mechanism of removing NOx is the reaction of photocatalysis and solar energy. Therefore, TiO2 in concrete need to be contacted with solar radiation to be activated. In general, TiO2 concrete are produced by substitute TiO2 as a part of concrete binder. However, 90% of TiO2 in the photocatalysis can not contacted with the pollutant in the air and solar radiation. Coating and penetration method are attempted as the alternative of mixing method in order to locate TiO2 to the surface of structure. METHODS : The goal of this study was to attempt to locate TiO2 to the surface of concrete, so we can use the concrete in pavement construction. The distribution of TiO2 along the depth were confirmed by basing on the comparison of TiO2 compare by using the EDAX(Energy Dispersive X-ray Spectroscopy). RESULTS : TiO2 were distributed within 3mm from concrete surface. This distribution of TiO2 is desirable, since the TiO2 induce photocatalysis are located to where they can be contacted with the air pollutant and solar radiation. CONCLUSIONS : Nano size TiO2 is easily penetration in the top 3mm of concrete surface. By the penetration TiO2 concrete can be produced with the use of only 10% of TiO2, by comparing the mixing types.

PURPOSES : This study is to suggest time to spray curing compound, the amount of curing compound, and the number of times to spray curing compound based on indoor tests. METHODS : Based on the literature review, two methods are used in this study, One is test for water retention of concrete curing material and the other is test for abrasion resistance of concrete surfaces by the rotating-cutter method. Through those methods, curing compound was evaluated. RESULTS : The result of the laboratory experiment for time to spray curing compound indicates that 30 minutes after placing concrete is optimal. For the amount of curing compound, 0.5l/m2 is the minimum quantity for both concretes. Through test of the number of times to spray curing compound, method to spray the whole amount of curing compound in twice is more efficient than it to spray the whole amount at a time. Also, method of separately 30-50 minutes spray is better than method of separately 10-30 minutes spray. CONCLUSIONS : From the testing results, it can be proposed that optimum time to curing compound is 30±15 minutes, 0.5l/m2 is efficient for spraying the whole amount of curing compound at a time, and 0.4l/m2 is the best for spraying the whole amount of curing compound in twice, which sprays it in 20 minutes after 30 minutes from placing concrete.

자연암반 형태의 경관구조물은 구조용 고성능 숏크리트 재료와 이를 숏크리팅 한 후 숏크리트가 굳기 전 전용도구를 이용하여 자연암 형태로 조각하는 기술 그리고 화학반응 착색제로 자연암 색상을 연출하는 기술 이며, 숏크리트 시공시 장비의 최적조합을 통해 시공성과 경제성을 향상시키며, 이러한 기술을 신설 경관사면이나 경관옹벽에 시공하는 기술과 기존 구조물의 경관개선 시공방법이다. 사면 보호 및 보강을 목적으로 사용하고 있는 공법으로는 기능에 따라 사면보호공법과 사면보강곡법으로 분류할 수 있다. 주로 비탈면 절취 후 안전율 확보를 위해 옹벽공이나 숏크리트공을 사용하는 곳에 이용하는 것을 목표로 한다. 기존 구조물 경관개선을 목적으로 하고 있는 공법으로는 구조물 주변의 여러 요인에 의해 열화 및 노후화로 인한 강도저하로 구조적 안정성 저하를 발생시키며, 특히 미관을 해치는 구조물의 경관개선을 목표로 한다. 본 논문은 이러한 자연암반 형태의 경관구조물 시공 사례를 소개하며, 공법의 장·단점과 향후 보완 및 개선 사안에 대한 연구이다.

우리나라 일반국도의 도로포장은 아스팔트 포장으로 이루어져있으며, 2011년 말을 기준으로 총연장 13,739km으로 전체 도로연장 중 약 13%를 차지하는 105,931km이다. 도로포장구간의 연장은 13,459km로써 약 97.6%의 포장률을 나타내고 있다. 최근 지구온난화와 기상이변 등의 전세계적인 기후변화에 따라 연평균기온 및 해수면 상승, 폭우 및 폭풍 등과 같은 환경영향으로 국제적으로 저탄소 녹색혁신 기술의 수요가 증가하고 있다. 따라서 본 연구에서는 기존 일반국도 아스팔트 포장 구간의 포장보다 시공시 온도, 카본 다이옥사이드 가스, 유해가스, 석유계 연료, 유해 증기, 분진 등을 저감하고, 시공 후 양생시간을 감소시키며, 공용온도에서 가열 아스팔트 포장과 비슷한 강도 특성을 확보하는 저탄소 중온 아스팔트를 이용한 시공을 할때, 교통량 검지기 (NC97)를 사용하여 도로교통에 대한 특성을 조사하였다. 본 연구를 통해서 그림 2와 같이, 공사중의 차량 속도는 공사전과 비교하여 평균 -13km/h의 차이가 있으며, 오전 첨두시는 -9km/h, 오후 첨두시 -24km/h의 속도 차이가 발생하였다. 특히 저탄소 중온 아스팔트 포장의 시공중 교통량이 가장 많은 오후 첨두시 pm5:00~pm6:00인 시점에서 가장 많은 속도 차이(-26km/h) 특성을 보였으며, 일반적인 아스팔트 포장의 공사시보다 단축된 도로점용 공사시간 및 조기개방으로 인한 교통지정체 비용 및 탄소배출량이 저감되었을 것으로 예측된다. 하지만, 명확한 저탄소 중온 아스팔트 포장의 시공으로 인한 편익 추정을 위하여 향후 경제성분석, 탄소배출 저감량, 교통에 미치는 영향 등의 연구가 필요할 것으로 사료된다.

본 논문에서는 도심지 지하에 터널 전력구를 건설하는 경우 시공단계별 영향을 고려한 구조해석을 수행하였다. 해석대상의 도심지 지하에는 여러 종류의 다양한 라이프라인 구조체가 설치되어 있다. 터널전력구의 구조해석에는 지반체의 유한요소해석 프로그램인 MPDAP을 사용하였다. 라이프라인 구조체와 터널 전력구 사이의 이격거리가 가장 작은 대표적인 3개의 단면에 대하여 구조해석을 수행하였다. 터널의 굴착단계별 유한요소해석에서 발생되는 평형불균형성 문제는 평형섭동개념을 적용하여 해결하였다. 또한 터널 굴착에 의한 시간의존 변형의 영향은 하중분담율을 사용하여 시공단계별로 고려하였다. 본 연구에서 검토한 3개의 대표단면에서는 터널 전력구 주변 지반체에서 발생하는 최대변위값은 허용변위값이내를 보여주었다.

비정형 초고층 건물의 계획 및 시공이 늘어남에 따라 이 연구에서는 프로토타입 모델에 대한 시공단계해석의 적용을 통하여 비정형 초고층 건물의 시공 중 구조적 거동을 분석하고자 하였다. 비틀림 초고층 건물을 대상으로 횡력저항시스템, 비틀림각도, 공법 조건에 따른 총 18개의 모델을 선정하였다. 횡력저항시스템으로는 다이아그리드 시스템과 가새튜브 시스템을 적용하였으며, 각 횡력저항시스템별로 0〫, 1〫, 2〫 비틀림각도를 갖는 세 가지 평면 형태와 외곽 튜브와 내부 골조의 시공순서에 따른 세 가지 공법을 가정하였다. 시공 중인 초고층 건물의 구조적 성능은 시공단계해석의 횡변위 결과를 통하여 분석되었으며, 골조 공기와 최대 양중량과 같은 시공성능이 함께 비교되었다.

PURPOSES: This study is to investigate the Hot In-Place recycling asphalt mixture in Korea using field produced materials. METHODS: Hot In-Place reclaimed asphalt mixture was investigated to evaluate the mixture properties based on various test results such as Marshall Test, Indirect Tensile Test, TSR, and Wheel Tracking Test. These test values were compared with domestic standard specification. RESULTS: The result of the laboratory experiment indicates that the Hot In-Place Reclaimed(HIR) asphalt mixture produced at the field constrution site was satisfied all of the test criteria such as Indirect tensile test, Marshall and TSR test, and wheel tracking test. During the test, the research team found that current HIR system is required an extention of mixing time to improve quality and to reduce variation of sample to sample. Although the current HIR mixture was passed the test criteria, there is a potential capability to enhance the mixture properties as extend mixting time. CONCLUSIONS: Based on these laboratory test results, It would be concluded that domestic HIR mixture's properties were satisfied all standard specification related with evaluation of recycling asphalt mixtures. Based on this case study result, there is a chance to save construction cost and increase the usage of reclaimed asphalt concrete in the future.

The large-space single-layer lattice dome is relatively simpler in terms of the arrangement of the various framework members and of the design of the junction than the multi-layered lattice dome, can reduce the numbers and quantity of the framework members, and has the merit of exposing the beauty of the framework as it stands. The single-layer lattice dome, however, requires a stability investigation of the whole structure itself, along with an analysis of the stress of the framework members, because an unstable phenomenon called "buckling" occurs when its weight reaches critical levels. Many researchers have systematically conducted researches on the stability evaluation of the single-layer lattice dome. No construction case of a single-layer lattice dome with a 300-m-long span, however, has yet been reported anywhere in the world. The large-space dome structure is difficult to erect due to the gigantic span and higher ceiling compared with other common buildings, and its construction cost is generally huge. The method of erecting a structure causes major differences in the construction cost and period. Therefore, many researchers have been conducting various researches on the method of erecting such structure. The step-up method developed by these authors can reduce the construction cost and period to a great extent compared with the other general methods, but the application of this method inevitably requires the development of system supports in the center section as well as pre-existing supports in the boundary sections. In this research, the safety during the construction of a single-layer lattice dome with 300-m-long span using pre-existing materials was examined in the aspect of structural strength, and the basic data required for manufacturing the supports in the application of the step-up method developed by these authors during the erection of the roof structure were obtained.

본 연구는 낙동강수계 매수토지 생태복원지를 대상으로 2007년 복원 공사 직후부터 4년간의 식생구조 변화를 모니터링하고 식생 관리방안을 제시하고자 하였다. 연구대상지는 낙동강 수계 생태복원지 중 총 15개소(208,342m2)를 대상지로 하였고 조사는 2007년 11월, 2008년 9월, 2009년 10월, 2010년 9월에 각각 시행하였다. 식재종 및 개체수 변화 분석 결과 교목층은 당단풍나무, 상수리나무, 신나무, 갈참나무, 굴참나무 등은 비교적 개체수가 증가하거나 변화가 없었고 떡갈나무, 말채나무, 뽕나무, 쪽동백나무, 팥배나무는 100% 고사한 것으로 나타났다. 관목은 초본과 덩굴성 식물에 의한 피압으로 대부분 고사하였다. 식재밀도는 4년간 평균 28주/100m2 → 20주/100m2 → 16주/100m2 → 16주/100m2로 감소하였다. 생장량은 복원 공사 직후 이식에 따른 스트레스로 다소 감소하였으나 이후 활착이 이루어짐에 따라 안정화되는 경향을 나타내었다. 흉고단면적 변화는 2007년 복원직후에 507.1cm2/100m2이던 것이 2008년에 301.8cm2/100m2로 감소하였으며 이후에는 324.9cm2/100m2(2009년), 372.7cm2/100m2(2010년)으로 다소 증가하는 경향을 나타내었다. 수변 생태복원지의 식재구조 개선을 위해서는 토양습도를 고려한 수종의 선정과 대상지 여건을 고려한 적정 식재구조의 차별화가 필요하였다.