CFRP는 경량화 소재로 각광받고 있으며, 해양산업에서도 고급요트와 특수목적 선박 등에 사용되고 있다. 전기추진체계 또한 친환경 추진 방법으로써, 요트와 소형 여객선 등의 주 추진계로 활용되고 있다. 본 연구에서는 소형선박의 선체소재와 추진계를 각각 CFRP와 전동기로 교체하였을 때의 경량화 효과를 정량적으로 비교분석하였다. 45ft GFRP 선박을 대상으로 사례연구를 수행하였으며, 선체소재를 설계원안과 동일 함침율 기준의 CFRP로 재설계하였고, 추진계는 설계원안의 동일 마력, 항해거리를 유지할 수 있도록 전동기와 배터리 시스템을 설계하였다. 연구결과 CFRP 소재는 선각을 45 % 정도 경량화 할 수 있었고, 전기추진체계는 기관부를 58% 경량화 할 수 있음을 확인하였다. 다만 전기추진체계의 경우, 디젤 추진체계의 항해거리를 확보하기 위하여 상당한 양의 배터리 팩을 필요로 하기 때문에, 현실적인 수준에서의 경량화 실효성은 없는 것으로 확인되었다.

현재 운용되고 있는 대형 등부표는 대부분 철소재로 제작되어, 부식과 침식에 취약할 뿐 아니라 중량이 커서 설치 및 유지보수 가 어렵다. 또한, 주위를 항해하는 선박과 충돌시 등부표 및 선박의 구조적 피해는 물론 인명피해를 발생시키기도 한다. 이러한 철소재 등 부표의 문제점들을 해결하고자 친환경, 경량화 재질을 사용한 등부표가 주목을 받고 있고, 최근 국내에서도 부체와 상부구조물에 각각 친환경 경량소재인 EPP(Expanded Polypropylene)와 알루미늄 소재를 적용한 경량 등부표가 개발된 바 있다. 등부표가 본연의 기능을 수행하기 위해서는 복원성능 및 파랑중 (동적) 운동성능의 확보가 중요한데, 경량화 등부표는 기존의 철재 등부표와 중량 분포 및 운동특성이 다르기 때문에 이에 관한 연구가 필요하다. 본 연구에서는 새롭게 개발된 전원일체형 경량 7마일 등부표의 복원성능과 다양한 환경조건(파도, 바람, 조류)하에서의 운동성능을 평가하였다. 계류시스템을 고려한 운동해석에는 ANSYS사의 AQWA를 사용하였으며, 운동성능 추정의 정도 향상을 위하여 상용 CFD SW인 Simens사의 STAR-CCM+를 사용해 추정한 풍하중 및 조류하중을 운동해석에 사용하였다. 추정된 등부표의 유의운동의 최대값을 비교한 결과, 바람보다는 파도와 조류가 운동성능에 상대적으로 큰 영향을 미치며, 해상상태가 나빠질수록 (Beaufort No. 3이상) 운동이 급격히 커지는 것으로 예측되었다. 이는 해상상태가 나빠지면서 불규칙 파 에너지 스펙트럼의 최대 주파수가 등부표의 고유주파수에 근접하기 때문으로 추정된다.

A study has been conducted on the structural analysis to reduce the light weight of the electric vehicle rotor shaft. ANSYS Static Structural was used for structural analysis. For weight reduction, the solid shaft was converted into a hollow shaft. The yield strength of the existing material SCM 440 is 655MPa, but to increase its safety, the yield strength is changed to 1,030MPa with SCM822H. At this time, weight reduction of about 47% was achieved. The resonance frequency of the rotor shaft was determined by vibration analysis and the structural safety was analyzed.

해양구조물 등에서 해상 현장과 육상시설 사이에 물자나 운용 인력을 수송하기 위한 수단으로 헬리콥터가 주로 이용된다. 헬리데크는 헬리콥터가 해양구조물에 착륙하기 위해 필수적으로 탑재되는 구조물로서, 해양구조물의 종류나 탑재되는 위치 등에 따라 다양한 형태의 헬리데크가 존재한다. 그 중에서 캔틸레버식 헬리데크는 해양구조물의 탑사이드 공간 확보에 용이 하며, 헬리콥터와의 충돌 등의 미연의 사고로부터 보다 안전하다. 본 논문에서는 캔틸레버식 헬리데크를 연구대상으로 선정 하고, 이를 구성하고 있는 하부 트러스 구조에 대해서 위상 최적설계를 적용하였다. 또한 상용 구조해석 프로그램을 이용하 여 유한요소 모델을 생성하고, 다양한 착륙 상황과 풍하중을 적용하여 구조해석을 수행하였다. 이를 바탕으로 헬리데크의 각 구조 부재에 발생하는 응력이 사용 재료의 허용응력을 넘지 않도록 부재의 세부 단면 치수를 결정하여, 보다 안전하면서도 경량화된 헬리데크 설계를 얻을 수 있다.

In the present study, FE analysis was performed for characterising structural strength of a seat frame w.r.t. varying sectional shapes as well as different materials of the seat back frame based on the FMVSS 207 regulation in order to obtain the design outline of a lightweight seat frane structure. Four types of materials, i.e., SAPH440, Al7021, Al6082 and carbon/epoxy composites were applied to the seat back frame type beams and their bending behaviours were compared by three point bending FE analysis. Consequently, the lightweight structure of seat back frame with the equivalent strength characteristics of conventional frame was suggested.

When working on electrical wiring and cable, Electrically insulated aerial work platforms must be used to prevent the electrocution hazards. Aerial work platforms with composition boom is able to increase the weight and height of the workspace due to the lightweight of boom. The aim of this paper is to clarify structural stability of 3 stage telescopic booms having an operator platform and an upper boom of composition(Fiber Reinforced Plastic) by comparing the general telescopic booms with steel material using computational analysis.

Finite Element analysis were carried out to investigate the deformation behaviours of a buckled automotive seat frames made of three different types of materials, i.e., SAPH440, Al6082-T6 and Al7021-T7, when they were subject to external load, based on the ECE R14 regulation to achieve lightweight structure. Also, several thicknesses were applied to the seat frame structures of each material for characterising deformations. It was found that light weight seat frame structure was obtained compared to conventional steel structure when it was made of aluminium under the condition of satisfying ECE R14 regulation. Interpretation result, when changing from SAPHH440 material has a thickness of 1.5mm to Al material has a thickness of 3.0mm, that could checking weight lightening about 47%.

The purpose of this paper is to demonstrate to the practicing engineers, how to apply the advanced composite materials theory to the slab bridges. For general construction material used, there is certain theoretical limit in sizes. For super slab bridges construction, the reduction in panel weight is the first step to take in order to break such size limits. For a typical slab bridges panel, both concrete and advanced composite sandwich panels are considered. The concrete panel is treated as a special orthotropic plate. Advanced composite sandwich panels are considered as a self-weights less than one tenth of that of concrete panel, with deflections less than that of the concrete panel. This conclusion gives good guide line for design of the light weight of slab bridges.

The author has proposed and verified the accuracy through experiments on a method of measurement through the use of sound waves that not only can quantitatively measure each of the dual directions of the fiber axis with high accuracy of membrane tension created on the surface of the membrane structure, but also can be easily operated in the field of construction. This paper reports the solution for problems of variables caused in the process of downsizing of the measurement equipment in order for practical use, and verifies the correspondence possibility of various stress ratios.

PURPOSES: The purpose of this paper is to demonstrate to the practicing engineers, how to apply the advanced composite materials theory to the road structures. For general construction material used, there is certain theoretical limit in sizes. For super road structure construction, the reduction in panel weight is the first step to take in order to break such size limits. METHODS: For a typical road structures panel, both concrete and advanced composite sandwich panels are considered. The concrete panel is treated as a special orthotropic plate. RESULTS: All types of advanced composite sandwich panels are considered as a self-weights less than one tenth of that of concrete panel. The concrete panel is treated as a special orthotropic plate to obtain more accurate result. CONCLUSIONS: Advanced composite sandwich panels are considered as a self-weights less than one tenth (10%) of that of concrete panel, with deflections less than that of the concrete panel. This conclusion gives good guide line for design of the light weight of road structures.

The automotive industry in the research and development cost ratio accounted for high technology coefficient of specialization research and development budget. development and adoption of innovative technologies such as new materials technology, electronics technology, information and communications technology and new production systems is a source of competitive products. because permanent magnets without applying an external magnetic field in the BLDC motor drive system parts for EV can be supplied. it has been used in several areas. permanent magnet in the different kinds of motor parts materials is one of the key components. permanent magnet is a relatively fast rate of technological advances, changes in price is considered the fastest. in this paper, the BLDC motor parts produce by the core making method of casting method moulding analysis. moulding density was measured. As a result, the moulding density is measured 7.2~7.5g/cm2 results were excellent.

In this paper deals with strength of glass fiber reinforced plastics produced by shouting machine was investigated by universal testing instrument. We can obtain following results by performing the strength evaluation of polymer composite material according as varied environment temperature. The effect of environmental temperature on Strength properties was more sensitive in the weld specimen than parent. When changed environmental temperature, variation of strength in the parent was much bigger than it of weld specimen, that is, matrix in the parent, orientation in the specimen ware more sensitive to environmental strength. Tensile strength of polycarbonate matrix was similar regardless of mold temperature.

대형구조물 설계 건설시 가장 큰 제한 조건은 모든 건설재료에는 치수의 한계가 있다. 따라서 본 논문 에서는 고전 보 이론에 의하여 단순 지지된 비등방성 슬래브의 처짐값을 구한 후 그 값을 비교 하였고, 특별 직교이방성 판 이론에 의하여 콘크리트와 샌드위치 교량의 물성을 비교하여 그 결과에 따른 처짐비와 강성값을 비교하였다. 경계조건은 임의의 경계조건을 갖는 판에 대한 해석해가 없기 때문에 부득이하게 네변이 모두 단순지지 되었을 경 우로 해석을 하였고 복합재료의 인장강도는 콘크리트나 강재보다 훨씬 높으므로 비교대상은 처짐으로 하였다. 즉, 철근 콘크리트와 동일하거나 작은 처짐을 일으키는 몇 가지 샌드위치판을 선택하여 고려하였다.

In order to supply the high-quality electric power, several researches have been conducted. For the high-quality power, it is necessary to inspect the power lines and insulators before the lines or insulators are disconnected or damaged. However, it is not enough to inspect all the power lines by human inspectors. In previous study, a power line inspection robot was developed to investigate the power lines and insulators. According to replace the human operators by the robot, the inspection robot has several advantages: the improved working conditions, machine accuracy, and the prevention of accident. However, the robot has some defects in its heavyweight. In this study, a lightweight inspection robot has been developed using a RP and a vacuum casting. And, this study developed a fault detection monitoring program for the high voltage equipment using a microphone which detects the location of fault and the thermal imaging and CCD cameras which verifies the fault and stores the image, respectively.