• 동력기계공학회지
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• 제13권1호
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• pp.65-71
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• 2009

To address the need for new intelligent sensing, this paper introduces nano sensors made of carbon nanotube (CNT) composites and presents their preliminary experiments. Having smart material properties such as piezoresistivity, chemical and bio selectivity, the nano composite can be used as smart electrodes of the nano sensors. The nano composite sensor can detect structural deterioration, chemical contamination and bio signal by means of its impedance measurement (resistance and capacitance). For a structural application, the change of impedance shows specific patterns depending on the structural deterioration and this characteristic is available for an in-situ multi-functional sensor, which can simultaneously detect multi symptoms of the structure. This study is anticipated to develop a new nano sensor detecting multiple symptoms in structural, chemical and bio applications with simple electric circuits.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2009년도 추계학술대회 논문집
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• pp.249-249
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• 2009

we have studied that a effect depending on dielectric properties of epoxy resin mixing filler nano/micro. When compare with nano/micro composite and virgin, the nano/micro composite is better than virgin. A specimen mixing nano/micro is changed as temperate, however the width of change is low.

• Transactions on Electrical and Electronic Materials
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• 제16권6호
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• pp.338-341
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• 2015

Epoxy/micro-sized alumina composite was prepared, and the effects of alumina content on the dielectric properties were investigated in order to develop an insulation material for gas-insulated switchgears (GIS). Nano-sized alumina (average particle size: 30 nm) was also incorporated into the epoxy/micro-sized alumina composite. Dielectric tests were carried out in ASTM D 150, and capacitance (Cp) and dielectric loss (tanδ) were measured. The dielectric constant increased with increasing alumina content in the epoxy/micro-alumina system and the epoxy/micro-alumina/nano-alumina system. As 1,3-diglycidyl glyceryl ether (DGE) content increased, the dielectric constant decreased and dielectric loss increased. This ocurred as a result of the weak electric field enhancement due to homogeneous dispersion of micro- and nano-sized alumina particles in an epoxy composite.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2013년도 춘계학술대회 논문집
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• pp.1101-1102
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• 2013

• Transactions on Electrical and Electronic Materials
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• 제14권1호
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• pp.1-8
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• 2013

The present approach shows the use of nano-silica/nano-alumina in polyurethane (PU) matrix, which lead to significant improvements in the mechanical and thermal properties of the nano-composite. It is observed that with incorporation of 1% of nano-alumina into the PU matrix, there is an improvement in the tensile strength of around 50%, and for nano-silica the improvement is around 41%, at the same concentration. The morphological data shows that above 3% of the nano particles there are agglomerations in the nanocomposite. Again with the absorption of moisture, there is a decrease in the thermal and mechanical properties of the PU resin, but in this research work it is observed that with the incorporation of the nano particles, in the presence of absorbed moisture there is an improvement in mechanical and thermal properties of the composite, over that of the PU matrix.

• Transactions on Electrical and Electronic Materials
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• 제10권3호
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• pp.97-101
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• 2009

The use of a filler material in epoxy composite materials is an essential condition for reducing the unit cost of production and reinforcing mechanical strength. However, the dielectric strength of insulators decreases rapidly due to interactions between the epoxy resin and filler particles. In contrast to existing composite materials, nano-composite materials have superior dielectric strength, mechanical strength, and enduring chemical properties due to an increase in the bond strength of the polymer and nano material, It is reported that nano-fillers provide new characteristics different from the properties of the polymer material. This study is to improve the insulation capability of epoxy resins used in the insulation of a power transformer apparatus and many electronic devices mold. To accomplish this, the additional amount of nano-$SiO_2$ to epoxy resin was changed and the epoxy/$SiO_2$ nano composite materials were made, and the fundamental electrical properties were investigated using a physical properties and an analysis breakdown test. Using allowable breakdown probability, the optimum breakdown strength for designing an electrical apparatus was determined. The results found that the electrical characteristics of the nano-$SiO_2$ content specimens were superior to the virgin specimens. The 0.4 wt% specimens showed the highest electrical properties among the specimens examined with an allowable breakdown probability of 20 %, which indicates stable breakdown strength in insulating machinery design.

• Transactions on Electrical and Electronic Materials
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• 제13권3호
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• pp.153-156
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• 2012

In order to develop electrical insulation materials, epoxy/micro-silica composite (EMC) and epoxy/micro-silica/nano-silicate composite (EMNC) were prepared, and their tensile and flexural strength, AC insulation breakdown strength and thermal conductivity and thermal expansion coefficient were compared. Nano-silicate was prepared in an epoxy matrix by our AC electric field process. All properties of the neat epoxy were improved by the addition of micro-silica, which was improved much further by the addition of nano-silicate to the EMC system.

• Journal of Electrical Engineering and Technology
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• 제9권3호
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• pp.978-983
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• 2014

The polymer nano composite possess good priority recently for engineering applications. Especially the electrical insulating materials attract the high performance of nano composites. In this work the ballmill synthesiation process of nano sized Alumina ($Al_2O_3$), the preparation of new nano composite material with an content of enamel and synthesized Alumina as 1wt%, 3wt% and 5wt%. Experimental investigation has been carried out for the prepared nano composites materials with respect to dielectric parameter measurements such as dielectric loss (tan ${\delta}$), dielectric constant (${\varepsilon}$), dielectric strength under various temperature. The partial discharge level also measured for all the samples and the PD inception voltage is also observed and compared. Weight loss of the material has been analyzed through TGA. It has been experimentally proved that 3wt% of Alumina nano filler added enamel has significant improvement in the dielectric and thermal properties.

• 대한심미치과학회지
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• 제25권2호
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• pp.98-108
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• 2016

전통적인 Metal-ceramic 보철 제작 방식으로부터 All-ceramic 보철에 이르기까지 최근 신소재 개발에 영향을 주는 가장 큰 요인은 심미적인 욕구일 것이다. 우리가 사용하는 각각의 치과용 수복 재료는 재료 별로 강도, 인성, 기계 가공의 효율성 및 사용에 필요한 다양한 과정을 기반으로 임상에서 다양하게 사용되고 있다. 예를 들어 Glass ceramic과 같은 단일 소재의 경우 약한 물성을 고려하여 주로 싱글 크라운과 같은 간단한 보철에 사용하고 있으며 상대적으로 높은 파괴 인성을 가진 지르코니아 재료의 경우 싱글 크라운은 물론 브릿지의 제작에도 널리 사용하고 있다. 하지만 지르코니아 재료는 제작 과정에서 긴 Sintering 시간을 필요로 하므로 Chair side에서 빠른 보철물 제작에 쉽지 않은 부분이 있으며 주로 Lab. side에서 사용하고 있다. CAD / CAM 시스템을 이용하여 보철물을 제작하는 용도로 개발 된 Hybrid ceramic 소재는 Resin Nano Hybrid Ceramic이라고도 하며, 개선 된 물성을 포함한 나노 세라믹 요소를 기반으로 하고 있다. 이러한 특징들은 심미적이며 기능적인 보철물의 제작이 용이한 과정과 결과를 보이고 있으며 동시에 향상된 내구성을 바탕으로 보철물의 제작 과정에 유리한 조건들을 가지고 있다. 새로운 Nano Hybrid Ceramic 재료는 Composite Resin과 Glass ceramic과 같은 단일 소재들이 가진 장점들을 이용하여 술자들의 요구사항을 바탕으로 오랜 연구를 통해 개발된 치과 수복 아이템이며 Nano ceramic filler가 혼합된 구조로 되어있어 치과 수복용 복합소재로서 널리 사용하고 있다. 또한 Nano Hybrid Ceramic소재는 Composite resin의 가공 과정에서 쉽게 파절되지 않는 개선된 물성과 Glass ceramic이 가진 심미성 동시에 포함하고 있는 것이 특징이다. 따라서 Chair side와 Lab. side에서 CAD/CAM 시스템을 이용하여 보철물을 제작할 때 임상적용이 쉽고 유용한 장점을 가지고 있어 추가적인 연구가 필요하다.

• Steel and Composite Structures
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• 제33권5호
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• pp.653-661
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• 2019

In this paper aeroelastic behavior of 3-phase nano-composite beam-plate with double delaminations is investigated. It is tried to study the effect of carbon nano-tubes (CNTs) on critical flutter pressure of reinforced damaged nano-composite structures. In this case, the CNTs are appending to the polymer matrix uniformly. The Eshelby-Mori-Tanaka model is used to obtain the effective material properties of 3-phase nano-composite beam-plate. To investigate the aeroelastic behavior of delaminated beam-plate subjected to supersonic flow, it is assumed that the damaged segments are forced to vibrate together. The boundary conditions and auxiliary conditions at edges of delaminated segments are used to predict critical flutter pressure. The influence of CNTs and different delamination parameters such as delamination length, axial position and its position through thickness are investigated on critical flutter pressure.