• Journal of the KSME
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• v.43 no.8
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• pp.32-43
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• 2003

2002년도 재료 및 파괴부문의 연구는 예년에 비해 더욱 활성화되었다. 부문 학술대회에서 효율적인 학술토의 및 아이디어 교환을 위해 기획 세션을 구성하여 대회를 운영하였으며, 기획 세션의 종료 및 세션 조직위원으로 활동한 회원은 다음과 가다. CAE/피로설계(이영신, MSC Korea), 신소재 및 복합재료(한경섭, 포항공대), 접합부의 강도평가(남기우, 부경대), 신뢰성 평가(진태은, 한전기술), 구조물의 손상평가(신병천, KIMM), NDT 기법 응용(윤동진, 표준연), 전자패키징 신뢰서(이순복, KAIST), 계산역학(박재학, 충북대), 발전소요소 진단 및 평가(박윤원, 원자력안전기술원), RBI-FFS-IT(최지붕, 성균관대), NT 분야(박준협, 동명정보대), 에너지 및 화력발전분야(하정수, 전력연구원)이다. 본 연감의 내용도 위에 언급한 기획 세션 주제별로 나누어 활동 사항을 요약하였다. 일부 논문은 분야가 중복되기도 하지만 본 연감에서는 주요 세션에서만 언급하였으며, 지면 관계상 많은 우수한 연구 활동에 대해 적절히 언급되지 못한 면도 있음을 발혀둔다.

• Proceedings of the KSR Conference
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• 2005.05a
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• pp.403-408
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• 2005

This research presents the manufacturing process and the structural strength assessment for the hybrid composite carbody. In this study, the manufacturing process for carbody with length of 23m was explained. The composite carbody was fabricated as one body using autoclave with length of 30m and 5m diameter. The structural behavior of the carbody under the 3-point supporting and the natural frequency were evaluated as well. In addition, the test results were compared with the numerical one. From the tests, the structural strength of the hybrid composite carbody was assessed.

• Electrical & Electronic Materials
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• v.9 no.4
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• pp.410-414
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• 1996

기존의 초고압 옥외절연물은 세라믹을 소재로한 porcelain이었지만 최근 신소재기술의 발달로 내열성, 내후성, 내트래킹성 등이 우수한 고분자 재료들이 개발됨에 따라 구미 선진국을 중심으로 이들의 전기절연물분야 적용이 크게 증가하고 있다. 인발(pultrusion)공법으로 glass fiber와 수지를 결합시켜 고강도 무결점의 FRP절연봉이나 tube를 만들 수가 있다. 절연물에서 요구되는 구조재로서의 기계적 특성은 FRP복합재료가 충족시킬 수 있는데 이러한 봉을 core재로 하여 절연물의 표면전기특성을 만족하도록 고무로 된 shed를 씌우고 양쪽 끝에 금구류를 부착하여 composite insulator를 만들 수가 있다. composite insulator는 여러개의 shed를 한번에 진공사출하거나 shed를 금형에서 찍어 조립하여 제작할 수가 있는데 지금까지 검토되어 온 어떤 고분자 절연물보다 특성이 우수하고 장점이 많기 때문에 상업적 가치를 인정받고 있다. 본 고에서는 옥외용 절연물의 절연성능과 섬락사고기구를 요약하고 고분자신소재 절연물인 composite insulator의 장점, 국내외 개발현황, 평가방법등을 정리하였다.

• The Korean Journal of Food And Nutrition
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• v.7 no.1
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• pp.64-82
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• 1994

1. 포장재료에서는 기능성필름, 전자레인지, 조리식품의 포장쪽으로 다층복합필름, 중공성형용기, 완전분해성 플라스틱필름과 같은 새로운 무공해 신소재가 개발될 것이다. 2. 포장제품의 차별화로 인하여 다양성 추구가 이루어질 것이다. 노인층의 증가, 젊은층의 유행 등으로 포장재료의 형태, 디자인의 패션화 등 목적에 따라 다양화 될 전망이다. 3. 환경보호를 위한 자원절약과 감량화 등이 규제에 따라 적정포장이 적극적으로 이루어질 것이다. UR개방과 GR에 대비해 포장설계로부터 폐기물에 이르기까지 자원절약형, 감량화, 대체품 개발, 가급적 포장재 단일화 성향으로 갈 것이다. 4. 생산기계에서부터 포장기계 및 물류 등의 고속화 및 전 자동화 시스템으로 개발될 것이다. 인건비 절감, 생산성 향상, 합리적 유통 구조개선이 이루어질 것이다. 5. 포장기술의 다양한 연구개발과 응용이 이루어져야겠다. 국내의 식품포장 연구는 매우 미미한 수준이며 기초연구에서부터 응용에 이르기까지 확산되어야 할 것이다. 식품의 무균화 및 무균포장기술, CA/MA포장기술, 전자렌지식품의 포장기술, 물류관리를 위한 포장 표준화, 포장식품의 보관 수명 연구, 식품과 포장재료의 유해성 연구 등 다양한 연구가 이루어져야 할 것이다. 6. 국내 포장교육의 전문기관으로 학과설립의 확대가 이루어져 업체의 요구에 부응하여야 될 것이다.

• Analytical Science and Technology
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• v.22 no.3
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• pp.254-262
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• 2009

Activated carbon fiber treated with iron compound (Fe-ACF) was employed for preparation of Feactivated carbon fiber/$TiO_2$ (Fe-ACF/$TiO_2$) composite catalysts. Then, the prepared Fe-ACF/$TiO_2$ composite catalysts were characterized by employing BET, SEM, XRD and EDX instruments. It showed that BET surface area was related to adsorption capacity for each composite. The SEM results showed that ferric compound and titanium dioxide were distributed on the surfaces of ACF. The XRD results showed that Fe-ACF/$TiO_2$ composite mostly contained an anatase structure with a Fe mediated compound. EDX results showed the presence of C, O, and Ti with Fe peaks in Fe-ACF/$TiO_2$ composites. From photocataytic degradation effect, it was observed in the organic dye (Methylene blue, MB) degradation by these composites. Different degradation effect can be attributed to the synergetic effects of photo-Fenton reaction of Fe. It was considered that the combined reactions of Fe-ACF/$TiO_2$ produce powerful photo-Fenton process in the MB degradation.

• Journal of the Korean Society for Advanced Composite Structures
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• v.3 no.1
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• pp.8-15
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• 2012

The initial clamping forces of high strength bolts depending on different faying surface conditions drop within 1,000 hours regardless of loading, any other external force or loosening of the nut. This study is focused on an expectation model for relaxation of high strength bolt, which is confined to creep on coated faying surfaces after initial clamping. The range of this experiment is limited to estimate the relaxation of bolted joints coated by inorganic zinc primer. The candidate bolts were dacro-coated tension control bolts. The parameters of coated thickness for the faying surface were 96, 168,and $226{\mu}m$ respectively. From experiments, it exhibited that the logarithmic function for creep strain was derived due to the parameter of coating thickness. By using the creep strain, subsequently the quantitative model for estimating long term relaxation of high strength bolt can be taken with the elapsed time. The experimental results showed that the relaxation after the initial clamping of high strength bolt rose to a much higher range from 10% to 18% due to creep of the coating as the coating thickness was increased. This study showed that the clamping force reflecting relaxation after the elapse of constant time can be calculated from the initial clamping force of high strength bolt.

• Membrane Journal
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• v.33 no.6
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• pp.325-343
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• 2023

Direct methanol fuel cells (DMFCs) have been attracting attention as energy conversion devices that can directly supply methanol liquid fuel without a fuel reforming process. The commercial polymer electrolyte membranes (PEMs) currently applied to DMFC are perfluorosulfonic acid ionomer-based PEMs, which exhibit high proton conductivity and physicochemical stability during the operation. However, problems such as high methanol permeability and environmental pollutants generated during decomposition require the development of PEMs for DMFCs using novel ionomers. Recently, studies have been reported to develop PEMs using hydrocarbon-based ionomers that exhibit low fuel permeability and high physicochemical stability. This review introduces the following studies on hydrocarbon-based PEMs for DMFC applications: 1) synthesis of grafting copolymers that exhibit distinct hydrophilic/hydrophobic phase-separated structure to improve both proton conductivity and methanol selectivity, 2) introduction of cross-linked structure during PEM fabrication to reduce the methanol permeability and improve dimensional stability, and 3) incorporation of organic/inorganic composites or reinforcing substrates to develop reinforced composite membranes showing improved PEM performances and durability.

• Membrane Journal
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• v.32 no.2
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• pp.133-139
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• 2022

As the issue of reducing greenhouse gases is emerging due to global warming and extreme weather, research on materials capable of radiative cooling without energy consumption is being actively conducted. Among them, silk is known as a natural self-cooling material, but in the conventional mixing process using chemically powdered silk, there is a problem that the radiative cooling effect disappears by the collapses of the intrinsic crystal structure of silk fibroin, so it is difficult to manufacture it in the form of a film or coating agent for radiative cooling. In this study, various types of membranes were manufactured using silk powder that went through a physical pulverization process that does not damage the intrinsic structure of silk fibroin, and the study was conducted to examine its applicability as a coating agent. Electrospun membranes and flat sheet membranes were prepared by using silk fibroin powder for this purpose, and it was observed that the viscosity of the solution had a significant effect on the membrane fabrication and its properties.

• Journal of Korean Society of Steel Construction
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• v.10 no.3 s.36
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• pp.451-461
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• 1998

The solution of anisotropic plate via the classical methods is limited to relatively load and boundary conditions. If these conditions are more complex, the analysis becomes increasingly tedious and even impossible. For many plate problems of considerable practical interest, analytic solutions to the governing differential equations cannot be found. Among the numerical techniques presently available, the finite difference method and the finite element method are powerful numerical methods. The objective of this paper is to compare with each numerical methods for the buckling load and modes of anisotropic composite laminated plates considering shear deformation. In applying numerical methods to solve differential equations of anisotropic plates, this study uses the finite difference method and the finite element method. In determining the eigenvalue by Finite Difference Method, this paper represent good convergence compared with Finite Element Method. Several numerical examples and buckling modes show the effectiveness of various numerical methods and they will give a guides in deciding minimum buckling load and various mode shapes.

• Journal of Korean Society of Steel Construction
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• v.11 no.4 s.41
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• pp.373-384
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• 1999

The shell structures with composite materials have the advantages in strength, corrosion resistance, and weight reduction. The objective of this study is to analyze anisotropic composite circular cylindrical shells with shear deformation theory. In applying numerical methods to solve differential equations of anisotropic shells, this paper use finite difference method. The accuracy of the numerical method can be improved by taking higher order of interval ${\Delta}$ to reduce error. This study compares the results of finite difference method with the results of ANSYS based on finite element method. Several numerical examples show the advantages of the stiffness increasement when the composite materials aroused. Therefore, it is expected that results of this study give various guides for change of the subtended angles, load cases, boundary conditions, and side-to-thickness ratio.