• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2014년도 춘계 학술논문 발표대회
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• pp.48-49
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• 2014

Green Frame is a column-beam system that uses composite precast concrete members. Previous studies have proven this system to be not only structurally safe, constructible, and economically feasible, but also environmentally-friendly. If the computerized program is used to estimate the quantity, the result of it shall be calculated much easily, quickly and exactly than manual estimation, because precast concrete members of Green Frame has standard size and connection method between it. Therefore, this study suggest quantity survey concept for column-beam structure comprised of composite precast concrete members. Hereafter, the quantity survey of Green Frame shall be much quickly and accurate, if the system would be made based on the result of this study.

• 한국해양공학회지
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• 제11권2호
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• pp.77-90
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• 1997

Wave deformation due to Oscillating water column (OWC) plant was studied. To solve this problem, three dimensional numerical method based on Improved Green integral equation was applied. Method condition was considered as well as fixed condition and freely floating condition. From the calculation results, main characteriatic of wave deformation due to OWC plant were discussed. Also, some calculations for the floating barge were performed to confirm the validity of numerical solution of the method.

• Journal of Construction Engineering and Project Management
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• 제3권4호
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• pp.12-19
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• 2013

Green Frame is an environmentally friendly column-beam system composed of composite PC members that can increase buildings' life spans while reducing resource consumption. Typically, connections of PC and RC columns occur at the boundaries of each floor, which is at the upper section of slabs, causing the boundary of each floor to generate the maximum moment. Although it is not optimal in terms of structural safety to connect members at a location where the moment is high, this approach is highly adopted due to its constructability. We propose that a superior approach that employs the concept of connecting columns at the low bending moment zone can be applied to quickly and safely install green columns, the main structural members of Green Frame. Connection of green columns at the low bending moment zone can be classified into three techniques, depending on the method of reinforcing the joints, which have different connection characteristics and construction methods. Research is needed to compare the features of each method of reinforcing the joints so that the most appropriate column connection method can be chosen for the site conditions. This study aims to confirm the structural safety of the connection component at the low bending moment zone and to compare and analyze the construction duration, unit price, quality and safety performance of each column connection method. The study results are anticipated to activate the use of composite precast concrete and to be used as development data in the future.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2013년도 춘계 학술논문 발표대회
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• pp.19-20
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• 2013

Green Frame is a column-beam system constructed by composite precast column and beam connected by embedded steel of their. From when the precast concrete beam of Green Frame is installed, until the concrete of slab and connection joint is cured, the self load of beam shall be supported by the embedded steel of it. Therefore, the concrete of beam could be separated from the embedded steel if the shear connector of beam of Green Frame is designed by the code on Structural standard. So, this study suggest an equation for the shear connection of composite precast concrete beams of Green Frame. The result of this study will be used as the main equation of the calculation model for shear connectors of composite precast concrete beams.

• Journal of the Korean Wood Science and Technology
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• 제38권5호
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• pp.399-404
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• 2010

A new green home designed to save money while at the same time saving the environment with some of the finest green features available in the market. Composite column composed of structural steel and structural glued laminated timber is avery Eco-friendly building products for design building because that use recycled or second hand. For compare to compressive strength of structural glued laminated timber (glulam), structural steel, and composite column (steel-glulam), tested compressive strength of each specimen. 1) structural glued laminated timber : Theoretical compressive strength is 151.6 kN similar to elastic limits. 2) structural steel (H type) : Theoretical compressive strength is 148.2 kN little under the elastic limits. 3) structural steel (D type) : Theoretical compressive strength is 147.3 kN upper than the elastic limits. 4) composite column : Actual elastic limits are about 600 kN. Result in, composite column improve compressive strength of Structural steel column and provide structural stability of the building.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2013년도 춘계 학술논문 발표대회
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• pp.10-11
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• 2013

Green Frame is a column-beam system formed by composite precast concrete column and beam connected with steel buried in both members. During the installation of Green columns, the columns of Green Frame, covering 3 floors per each piece and beams, the eccentricity can be observed due to the construction error and the weight of beam itself. Such eccentricity may have a little influence on a single frame, yet, it can develop critical issues to the installation of subsequent beams or beams on the upper floors in the context of a building as a whole that has multiple frames. These issues lead to delay in frame installation, decrease of productivity and increase of cost, etc. Therefore, this study presents a steel-joint connection method in order to solve the issues. The steel-joint connection method exists on slope plane and reinforcing plate in steel frame buried in composite PC members. Through this method, the issues can be resolved without requiring additional equipment or manpower.

• 한국건축시공학회지
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• 제12권4호
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• pp.415-425
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• 2012

공동주택의 리모델링 수월성, 장수명화, 자원저감, 친환경 구조시스템 구현을 위하여 라멘구조인 그린프레임 공법이 개발되었다 그린프레임의 주요 구조부재인 합성 프리캐스트 콘크리트 기둥과 보는 접합부 철골과 콘크리트에 의한 접합으로 신속하고 정밀하게 설치할 수 있다. 그린프레임의 접합부는 그 형상에 따라 네 종류로 분류할 수 있으며, 각 종류에 따라 각기 접합 특성과 시공방법이 다르다. 현장상황에 적합한 기둥을 선택하기 위해서는 기둥 종류별 접합부 특성 비교 연구가 필요하다. 따라서 본 연구에서는 기둥 종류별 접합부의 공기, 원가, 품질, 안전성능 비교 분석하는 것을 목적으로 한다. 본 연구의 결과는 GF 공법의 설계단계에서 프로젝트 특성을 반영한 적정 합성 프리캐스트 콘크리트 기둥을 선정하는데 활용된다.

• 한국의류학회지
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• 제23권1호
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• pp.140-146
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• 1999

Colorants in green tea were extracted freeze-dried and analyzed to investigate the possibility of using as a natural dye. Fractionation of the colorants was carried out by column chromatograpy. Colorants in green tea were eluted into five fractions. All the fractions except fraction F2 showed absorption peakat 280nm. Fraction f2 showed absorption peak at 270nm and broad peak at 350nm, From the IR analysis it is speculated that fractions F2-F5 having similar stucture but different molecular weight are catechis. Silk fabrics dyes with fractions F1-F4 showed yellowish red color while sample dyed with fraction F5 showed red color. The colorants from green tea infusion was applied to silk wool nylon cotton and rayon fabrices. It showed relatively good affinity to protein and polyamide fibers bur low affinity to cellulose and regenerated cellulose fibers.

• Journal of Yeungnam Medical Science
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• 제13권1호
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• pp.46-58
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• 1996

세포막 정보전달 과정에 참여하는 효소로 inositol triphosphate($InsP_3$)를 분해하는 $InsP_3$ kinase를 소의 뇌 조직으로 부터 새로운 정제방법을 개발하고 isozyme들의 특성을 관찰하여 다음과 같은 결과를 얻었다. 분쇄한 소의 뇌조직을 PEG로 단백침전하고 DEAE cellulose chromatography 하여 $InsP_3$ kinase I, II의 두 isozyme을 얻었으며, 각각의 isozyme 분획을 Matrix green gel 및 calmodulin-Affigel 15 column으로 chromatography하였다. Phenyl-TSK HPLC하여 정제하였으며 I은 3,103배, II는 2,310 배의 정제를 나타내었다. 정제 단계에서 specific activity를 비교해 볼 때 Matrix green gel chromatography가 DEAE cellulose에서 보다 I이 30배, II가 약 2.3배로 나타났고 정제배수도 I이 17.2%에서 62.1%로 II가 16.6%에서 38%로 나왔으나 calmodulin-Affigel 15과 비교시는 큰 차이가 없었다. 그러므로 Matrix green gel이 정제에서 매우 중요한 단계라 할 수 있다. 효소의 분자량을 알기 위하여 DEAE HPLC로 두 개의 isozyme을 분리하여 전기영동한 결과 I은 환자량 145,000, 85,500 및 69,500이 3개의 단백질을 얻었고 II는 분자량 79,000 및 57,000의 2개의 단백질을 얻었다.

• Steel and Composite Structures
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• 제42권2호
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• pp.265-275
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• 2022

A new type of precast steel reinforced concrete (PSRC) column was put forward in this paper. In order to study the static performance of PSRC column and hollow precast steel reinforced concrete (HPSRC) column subjected to combined compression and shear loading, a parametric test was carried out and effects of axial compression ratio, concrete strength and shear ratio on the mechanical behavior of composite PSRC column and HPSRC column were explored. In addition, the cracks development, load-span displacement relationship, strain distribution and shear bearing strength of column specimens were emphatically focused. Test results implied that shear failure of all specimens occurred during the test, and higher strength of cast-in-place concrete, smaller shear ratio and larger axial compression ratio could lead to greater shear resistance, but when the axial compression ratio was larger than 0.36, the shear capacity began to decrease gradually. Furthermore, truss-arch model for determining the shear strength of PSRC column and HPSRC column was proposed and the calculated results obtained from proposed method were verified to be valid.