중공슬래브 시스템은 슬래브 중앙부의 콘크리트를 경량의 중공재로 대체하여 중량은 감소시키면서 동등한 수준의 구조성능을 지니는 경제적인 시스템이나 콘크리트 타설 시 비중의 차이로 중공재가 부상하게 되는 문제점이 발생한다. 이에 본 연구에서는 중공슬래브 공법에 적용 가능한 경량성형재 고정장치를 고안하고 부력저항성능을 평가하고자 하였으며, 고정성능 평가를 위해 정해진 실험방법이 존재하지 않으므로 이를 검증하기 위해 인발실험장치를 제작하였다. 시공 시 본 장치를 설치하는 과정에서 발생 가능한 변수를 기준으로 실험을 수행하고자 하였고 이에 합판의 상태 및 고정 위치에 따라 변화되는 고정성능을 파악하고자 하였다. 인발 실험 결과 일반합판과 비교하여 코팅합판의 경우 구멍의 크기가 중공재 고정장치의 인장성능에 큰 영향을 미치지 않는 것으로 나타나 작업자의 편의 및 내력 확보의 안전성을 위해 코팅합판을 사용하는 것이 유리한 것으로 판단된다. 또한 고정 위치와 무관하게 동일한 수준의 고정성능을 지니는 것으로 보여져 설치 상태에 대한 별도의 확인 과정 없이 슬래브 상부에서 원터치 방식으로 고정 가능하므로 시공성이 향상된 것으로 사료된다.
익수자의 부력을 지원할 수 있는 도구나 장비는 익수자의 생명 연장에 중요하다. 본 연구의 목적은, 최소 1분의 시간 동안 사람 의 머리가 수면위로 부상하여 호흡할 수 있는 것으로 가정한 최소 부력의 형성에 필요한 가스의 양과 뉴턴(newton) 단위의 부력을 추정함 에 있다. 부력 실험 장치는 이산화탄소 가스를 주입한 긴 고무풍선을 이용하였고, 6명의 대학생을 대상으로 부력측정 실험을 하였다. 부 력의 정도는 5점 척도를 이용하여 측정하였고, 측정한 데이터의 통계 값을 분석하여 최소 부력에 필요한 이산화탄소의 양을 추정하였다. 실험 결과, 이산화탄소 8 그램은 72 %의 신뢰수준에서 최소부력 조건을 만족하고, 부력은 44.66 뉴턴으로 계산되었다. 이산화탄소 12 그램 은 100%의 신뢰수준에서 최소부력 조건을 만족하고, 부력은 66.99 뉴턴으로 계산되었다. 본 연구를 통해서 저가이면서 휴대가 간편한 최 소부력지원 장치의 개발이 가능할 것으로 기대된다.
CE RCD (Recreational Craft Directive) is a certification for the design and construction of small vessels, including pleasure yachts, which are widely used not only in the countries within the European Union, but also in Japan and Southeast Asia. Recently, South Korean leisure craft shipyards have developed interest in exporting to foreign leisure craft markets such as Europe; however, they have encountered difficulties because of the CE RCD regulations, which are relatively complex and difficult to understand. The requirements for buoyancy and stability, which are essential properties that must be understood within the early stage of ship design, are defined based on ISO 12217. However, preparing this assessment according to ship classification regulations is an exceedingly complex task, even with knowledge of naval architecture. In this research, we have developed design support tools to systematically support assessments and preemptively define design information so that buoyancy and stability assessments based on ISO 12217 can be systematically prepared. Our research results were applied to actual examples of yacht design to confirm validity. We believe that the improved yacht design process presented in this research can act as a foundational reference for enhancing the effectiveness and systematic buoyancy and stability assessments.
This study aims to analyze the performance of a submersible fish cage which was designed for developing an economical cage system can be applied in korean aquaculture environment easily. To analyze the performance of the designed cage a model test was carried out. In the test, inclination changes of the upper frame and mooring tensions of model cage were measured during the submerging and surfacing motion in still water and wave condition (period: 2s, wave height: 0.1, 0.2, 0.3m). As a result, in the still water condition the model cage kept horizontal balance and inclination degree of the upper frame was about 1˚. In the wave condition, the model cage showed bilateral symmetric up-and-down motion but the average inclination degree of the upper frame was about 0˚. When the model cage reached at a depth of 1m, the up-and-down motion of the cage was decreased by 12% compared with that of at the surface (period 2s, height 0.3m). In the same wave condition, the maximum and average line tension under the bottom position were about 8% and 11% respectively compared with that of at surface.
This study was carried out to offer fundamental data for improving the fishing efficiency of the Danish seine. The net height and the shape in the water was measured to analyze the efficiency of the existing Danish seine. And then, an improved fishing gear was developed based on the results and was tested in the field. Measuring devices were attached on center of a ground rope and a head rope. The net height is the spread distance between the ground rope and the head rope, which was measured on the different ratio of buoyancy. The results are obtained as follows. The net height estimated from the design plan of horizontal hanging ratio 0.40 in the existing Danish seine A and B estimated both 4.94m. The net height of the existing Danish seine A and B was respectively 1.8m and 2.3m, which form 36.4% and 46.2% of the net height estimated from the design plan. Buoyancy was changed as 79.5% and 96.2% relative to the sinking force in the existing Danish seine. The net height of 79.5% was 3.95m which increased to 80% of the estimated net height. The other shows the same result with the first case. It is not necessarily that the high buoyancy/sinking force ratio make the high net height, 80% is adequate as the buoyancy/sinking force ratio. In case of the improved Danish seine, the mean net height was about 5.0m, means 58.3% of estimated net height 8.58m.
According to this research, the buoyancy force safety review of the buried water pipeline is carried out to determine the safety. In addition, it suggests ways to use as basic data for establishing future maintenance strategy.
As the results of study, physical characteristics of light weight buoyancy material improve as MMA content was increased. When considering density and abrasion properties of light weight buoyancy, the proper mixing condition is thought to be C1.0.
In this study, an analytical studies were carried out for the buoyancy preflexion method to improve structural performance of concrete floating structures. The buoyancy preflexion means that the preflexion effects were induced to the floating structure due to the difference in buoyancy between the pontoon modules composing the floating structures. As the results of this study, it was found that the buoyancy preflexion significantly influence on structural performance of floating structures.