• 한국전자파학회논문지
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• 제17권10호
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• pp.920-928
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• 2006

전자파를 선택적으로 투과시킬 수 있는 섬유 강화 복합 재료를 제안하였다. 이 주파수 선택적인 직물 복합재료는 탄소 섬유와 유전 섬유를 직조하여 주기적인 패턴을 가지도록 제작된다. 먼저 주파수 선택적인 직물형 복합 재료의 전자기적 특성을 조절할 수 있는 설계인자들에 대해 살펴보고, 이후에 정사각형 패턴을 가지는 평직 복합 재료를 제작하고 이것의 전자기적 특성을 탄소 로빙의 전기 전도도, 섬유의 굴곡, 그리고 개구면 대요소 크기의 비에 대해 고찰하였다. 전기 전도도에 있어서는 섬유 체적비와 주파수 분산성에 대한 의존성을 고려하였다. 구성 재료의 물성 및 섬유 체적비는 제작된 FSFC의 전자기적 특성에 큰 영향을 주지 않았으나, 개구면 대 요소 크기의 비는 많은 영향을 주었다.

• 한국의류학회지
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• 제37권2호
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• pp.235-245
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• 2013

Physiological responses and subjective sensations were evaluated for wearing protective welding clothing in consideration of the work environment for the shipbuilding industry. Experimental clothing was made of oxidant carbon nonwoven fabric (SW2) and oxidant carbon/p-aramid blended fabric (SW4). The values of all items in physiological responses were higher upon wearing oxidant carbon experimental clothing versus wearing oxidant carbon/p-aramid experimental clothing (p<.001). The results of the wearing evaluation in the welding work on-site showed that existing leather protective clothing had a very low satisfaction of permeability, weight sensation and wearing sensation. For the wearing sensation of experimental clothing with SW2, permeability and durability were poor and the pressure and weight sensation satisfaction was very high. In case of SW4, the satisfaction was very high in functional movement, pressure, weight sensation and management aspects; subsequently, the overall wearing satisfaction was very good.

• Composites Research
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• 제31권6호
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• pp.355-364
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• 2018

Flexible energy-storage devices (FESDs) have been studied and developed extensively over the last few years because of demands in various fields. Since electrochemical performance and mechanical flexibility must be taken into account together, different framework from composition of conventional energy-storage devices (ESDs) is required. Numerous types of electrodes have been proposed to implement the FESDs. Herein, we review the works related to the FESDs so far and focus on free-standing electrodes and, especially substrate-based ones. The way to utilize carbon woven fabric (CF) or carbon cloth (CC) as flexible substrates is quite simple and intuitive. However, it is meaningful in the point of that the framework exploiting CF or CC can be extended to other applications resulting in multifunctional composites. Therefore, summary, which is on utilization of carbon-based material and conductive substrate containing CF and CC for ESDs, turns out to be helpful for other researchers to have crude concepts to get into energy-storage multi-functional composite. Moreover, polymer electrolytes are briefly explored as well because safety is one of the most important issues in FESDs and the electrolyte part mainly includes difficult obstacles to overcome. Lastly, we suggest some points that need to be further improved and studied for FESDs.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2001년도 추계학술발표대회 논문집
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• pp.64-69
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• 2001

In general, laminate effective orthotropic thermal conductivities are dependent on fiber and matrix material properties, fiber volume fraction and fabric geometric parameters. This paper deals with the predicting method of the transverse and the in-plane thermal conductivities of plain weave fabric composites based on the three dimensional series-parallel thermal resistance network. Thermal resistance network was applied to unit cell model that characterizes the periodically repeated pattern of plain weave. Also, an experiment apparatus is setup to measure the thermal conductivities of composite material. The numerical and experimental results of carbon/epoxy plain weave are compared.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2004년도 추계학술발표대회 논문집
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• pp.139-142
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• 2004

The fabric composite rings for nozzle parts of solid rocket motors should be thick to endure high temperature and pressure of combustion gas. Since the thermal residual stresses developed during manufacturing of the axi-symmetric composite structures increase as the thickness increases and eventually induce failures during storage and operation, the estimation of the residual stresses is indispensable for design and manufacture of the thick composite nozzle parts. In this paper, thick fabric rings made of carbon fabric phenolic composites were fabricated in a hydroclave and in an autoclave using a multi-step pre-compaction process to minimize draping. The residual stresses distributed in the rings were measured by the radial-cut method and it was found that the compaction reduces the residual stresses in the composite ring.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2009년도 제38회 동계학술대회 초록집
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• pp.363-363
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• 2010

The high capillarity of a plastic fiber network having superhydrophilic Si-DLC coating is studied. Although the superhydrophilic surface maximize wetting ability on the flat surface, there remains a requirement for the more wettable surface for various applications such as air-filters or liquid-filters. In this research, the PET non-woven fabric surface was realized by superhydrophilic coating. PTE non-woven fabric network was chosen due to its micro-pore structure, cheap price, and productivity. Superhydrophobic fiber network was prepared with a coating of oxgyen plasma treated Si-DLC films using plasma-enhanced chemical vapor deposition (PECVD). We first fabricated superhydrophilic fabric structure by using a polyethylene terephthalate (PET) non-woven fabric (NWF) coated with a nanostructured films of the Si-incorporated diamond-like carbon (Si-DLC) followed by the plasma dry etching with oxygen. The Si-DLC with oxygen plasma etching becomes a superhydrophilic and the Si-DLC coating have several advantages of easy coating procedure at room temperature, strong mechanical performance, and long-lasting property in superhydrophilicity. It was found that the superhydrophobic fiber network shows better wicking ability through micro-pores and enables water to have much faster spreading speed than merely superhydrophilic surface. Here, capillarity on superhydrophilic fabric structure is investigated from the spreading pattern of water flowing on the vertical surface in a gravitational field. As water flows on vertical flat solid surface always fall down in gravitational direction (i.e. gravity dominant flow), while water flows on vertical superhydrophilic fabric surface showed the capillary dominant spreading.

• Steel and Composite Structures
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• 제34권2호
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• pp.299-308
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• 2020

This study aims to carry out the experimental and numerical investigation on the flexural behavior of sandwich honeycomb composite (SHC) beams reinforced with novel triaxially woven fabric composite skins. Different stacking sequences of the carbon fiber reinforcement polymer (CFRP) laminate; i.e., 0°-direction of TW (TW0), 0°-direction of UD (UD0), and 90°-direction of UD (UD90) were studied, from which the flexural behavior of SHC beam behaviors reinforced with TW0/UD0 or TW0/UD90 novel laminated skins were compared with those reinforced with UD0/90 conventional laminated skins under four-point loading. Generally, TW0/UD0 SHC beams displayed the same flexural stiffness as UD0/90 SHC beams in terms of load-deflection relationships. In contrast, TW0/UD90 SHC beams showed a 70% lower efficiency than those of UD0/90 SHC. Hence, the TW0/UD0 laminate arrangement is more effective with a mass reduction of 39% compared with UD0/90 for SHC beams, although their stiffness and shear strength are practically identical.

• Korean Chemical Engineering Research
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• 제60권3호
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• pp.377-385
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• 2022

우리나라 전통 숯가마로부터 제조된 숯의 표면형상과 흡착특성을 분석한 후, 습도와 온도를 조절하면서 이들의 수분 흡착성능을 측정하고 황토, 활성탄소섬유 직포 및 활성탄소섬유 종이의 수분 흡착성능과 비교하였다. 숯은 소수성이므로 45% 이하의 습도에서는 수분을 잘 흡착하지 않지만 습도가 증가하면 흡착성능이 서서히 1차식에 비례하여 증가하였다. 황토 분말도 낮은 습도에서는 숯과 유사했지만 습도가 증가하면 흡착성능이 기하급수적으로 증가하면서 Type V 등온흡착곡선을 보였다. 따라서 조선시대에 기상청 직원들이 숯과 황토의 수분 흡착능력을 일기예보에 적용하였다는 기록을 실험적으로 확인할 수 있었다. 활성탄소섬유 직포와 활성탄소섬유 종이는 수분 흡착능력이 월등하고 신속한 반응을 보이므로 습도측정 센서에 적용할 수 있다고 판단된다. 숯 조각의 등온흡착 및 탈착곡선 측정에서 흡착질인 질소의 탈착이 잘 이루어지지 않아 낮은 압력 이력현상(low-pressure hysteresis)이라는 독특한 Type I과 Type IV의 혼합형태를 보이는데, 이는 질소입자가 흡착시에 숯 세공의 틈새를 비비고 들어가 단단히 끼었다가 탈착시에 빠져나오지 않기 때문이다. 숯을 분말로 분쇄하면 이러한 틈새들이 분쇄되어 비표면적이 증가하고 낮은 상대압력에서 흡착질의 탈착량이 증가되었다.

• 설비공학논문집
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• 제21권10호
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• pp.583-589
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• 2009

Activated carbon has long been used in purification processes for indoor air quality. However, the bioaerosol removal by activated carbon is not often sufficient to be used in an air control devise. In order to overcome these problems, silver nano-particles have been proposed as an antibacterial agent on the surface of activated carbon. Silver or silver ions have been known for antimicrobial activities. In this study, bioaerosol generated by using an Escherichia coli culture was introduced to a lab-scale column packed with activated carbon (AC) and silver nano-particles attached to activated carbon (Ag-AC). E. coli was almost completely removed in the Ag-AC column, whereas bioaerosol penetrated through the AC column. To determine the antibacterial effect of different filter materials in a full-scale air-handling system, another experiment was conducted using a wind tunnel equipped with a heat exchanger and three filter materials including commercial fabric, AC and Ag-AC. It was found that E. coli proliferated on the surface of the heat exchanger after 5 days, which dramatically increased bioaerosol counts in the effluent air stream. The fabric filter could not control the increased bioaerosol and most of the E. coli penetrated the filter. The bacterial removal efficiency was found to be approximately 45% in the AC filter, while the antibacterial efficiency increased to 70% using the Ag-AC filter. Consequently, the Ag-AC filter can be an effective method to control bioaerosol and improve indoor air quality.

• Composites Research
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• 제34권3호
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• pp.148-154
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• 2021

탄소/에폭시 복합재료 분리판(BP)은 높은 기계적 특성과 생산성으로 인해 바나듐 레독스 흐름전지(VRFB)의 기존 흑연 분리판을 대체할 가능성이 있는 BP이다. 다기능 구조인 탄소/에폭시 복합재료 BP는 계면접촉저항(ICR)을 줄이기 위해 흑연 코팅 또는 추가 표면 처리가 필요하다. 그러나 팽창 흑연 코팅은 VRFB 작동 조건에서 낮은 내구성을 가지며 별도의 표면 처리는 추가 비용이 발생한다는 단점이 있다. 본 연구에서는 폴리에스테르 직물을 적용하여 탄소/에폭시 복합재료 BP 표면의 잉여 수지층을 균일하게 제거하여 탄소섬유를 노출시키는 잉여 수지 흡수법을 개발하였다. 이 방법은 BP 표면에 탄소섬유를 노출하여 ICR을 감소시킬 뿐만 아니라 탄소 펠트 전극을 효과적으로 고정할 수 있는 고유한 도랑 패턴을 형성한다. 잉여 수지 흡수법에 의해 제작된 복합재료 BP의 산성 환경 내구성, 기계적 특성 및 기체 투과도에 대해 실험적으로 검증하였다.