• Steel and Composite Structures
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• 제17권1호
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• pp.69-81
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• 2014

The novelty of this paper is the use of trigonometric four variable plate theory for free vibration analysis of laminated rectangular plate supporting a localized patch mass. By dividing the transverse displacement into bending and shear parts, the number of unknowns and governing equations of the present theory is reduced, and hence, makes it simple to use. The Hamilton's Principle, using trigonometric shear deformation theory, is applied to simply support rectangular plates. Numerical examples are presented to show the effects of geometrical parameters such as aspect ratio of the plate, size and location of the patch mass on natural frequencies of laminated composite plates. It can be concluded that the proposed theory is accurate and simple in solving the free vibration behavior of laminated rectangular plate supporting a localized patch mass.

• Structural Engineering and Mechanics
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• 제58권2호
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• pp.301-326
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• 2016

An optimization method of patch shape was developed in this study, in order to improve repair of cracked plates. It aimed to minimize three objectives: stress intensity factor, patch volume and shear stresses in the adhesive film. The choice of these objectives ensures improving crack repair, gaining mass and enhancing the adhesion durability between the fractured plate and the composite patch. This was a multi-objective optimization combined with Finite elements calculations to find out the best distribution of patch height with respect to its width. The implementation of the method identified families of optimal shapes with specific geometric features around the crack tip and at the horizontal end of the patch. Considerable mass gain was achieved while improving the repair efficiency and keeping the adhesive shear stress at low levels.

• Archives of Pharmacal Research
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• 제27권12호
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• pp.1295-1301
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• 2004

The enantiomeric composition tests on flurbiprofen and ketoprofen present in patch products and in urine excretions following patch applications were performed as diastereomeric (R)-(+)- 1-phenylethylamides by achiral gas chromatography and by gas chromatography-mass spectrometry in selected ion monitoring mode. The method for determination of (R)- and (S)-enantiomers in the range from 0.1 to 5.0 ${\mu}$g was linear (r ${\ge}$ 0.9996) with acceptable precision (% RSD ${\le}$5.2) and accuracy (% RE = 0.6 ~ -2.4). The enantiomeric compositions of flurbiprofen in one patch product and of ketoprofen in five different products were identified to be racemic with relatively good precision (${\le}$ 6.4%). The urinary excretion level of (R)-flurbiprofen was two times higher than its antipode, while the comparable excretion levels of (R)- and (S)-enantiomers for ketoprofen were observed.

• Animal cells and systems
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• 제3권2호
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• pp.143-147
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• 1999

Annual production and redistribution of leaf litter were compared among three distinct understory patches in a temperate hardwood forest dominated by Quercus mongolica, Kalopanax pictus, Acer pseudo-sieboldianum, and Carpinus cordata. Two patches were located on a southwest-facing slope: one with an understory dominated by herbaceous plants (Patch S), and the other covered with evergreen dwarf bamboo, Sasa borealis (patch SS). The third patch was on the opposite slope with an understory dominated by herbaceous plants (Patch N). Annual leaf litterfall was averaged 330 g m$^{-2} yr$^{-2}$ in the three patches from 1994 to 1998. From mid-September 1996 to mid-September 1997, net transport of leaf litter over patch bound-aries was 1,824g m$^{-1}$ from Patch S to SS, 1,465g m$^{-1}$ from Patch S to N, and 886 g m$^{-1}$ from Patch SS to N. The amounts moving downslope out of Patch S, SS, and N were 2,548, 471, and 588g m$^{-1}$, respectively. When a mass balance approach was employed for the data of leaf litter transport, the results were relatively consistent with 216, 631, and 724g m$^{-2}$ of leaf litter stores in Patch S, SS, and N, respectively, in April 1997. This study suggests that leaf litter redistribution is largely regulated by aspect and understory type and exerts a significant effect on carbon processes in the forest ecosystem.

• Smart Structures and Systems
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• 제15권5호
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• pp.1203-1214
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• 2015

This paper deals with the experimental validation of the use of PVDF Patches for the assessment of spatial derivatives of displacement field. It focuses more exactly on the shear Force Identification by using Specific forms of PVDF patcHes (FISH) on beams. An overview of the theoretical approach is exposed. The principle is based on the use of the weak form of the equation of motion of the beam which allows the shear forces to be extracted at one edge of the sensor when this last has a specific form. The experimental validation is carried out with a cantilever steel beam, excited by a shaker at its free boundary. The validation consists in comparing the shear force measured by the designed sensor glued at the free edge and the directly measured force applied by the shaker. The sensor is made of two patches, called the "stiffness" patch and the "mass" patch. The use of both patches allows one to identify correctly the shear force on a large frequency domain. The use of only the stiffness patch is valid in the low frequency domain and has the advantage to have a frequency-independent gain that allows its use in real time.

• Smart Structures and Systems
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• 제24권3호
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• pp.379-390
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• 2019

In this research, we propose an energy harvesting structure with a flexible blade element vibrating at its first mode to maximize the power output of the piezoelectric material. For this purpose, a piezoelectric patch was attached on the blade element used in a small-scale wind turbine, and air load was applied with a suitable angle of attack in the stall zone. The aerodynamic load created by air excitation vibrates the blade element in its first natural frequency and maximizes the voltage output of the piezoelectric patch. The variation of power outputs with respect to electrical resistance, air speed, and extra mass is experimentally investigated for various cases. An analytical model is constituted using a single-mode blade element with piezoelectric patch dynamics, and the power outputs of the obtained model are compared with experimental results.

• 한국전자파학회논문지
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• 제15권4호
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• pp.353-359
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• 2004

본 논문에서는 슬롯 판과 도파관의 두 파트로 구성되어 있는 단층 구조의 슬롯 도파관 배열 안테나를 설계하였다. 슬롯 판과 도파관 사이의 전기적인 접촉을 구현하는 것이 대량 생산에 있어 가장 어려운 점이며 이를 위하여 Dumbbell 패치와 초크를 가지는 슬롯 도파관 배열 안테나를 제안하였다. 초크는 슬롯 판과 도파관 사이의 갭에 의해 발생하는 누설 전류를 막아 주지만 도파관 사이에 공간상의 손실이 발생하게 된다 본 논문에서는 Dumbbell 패치를 사용하여 공간상의 손실을 줄일 수 있었고, 16${\times}$16배열 안테나를 제작한 결과 27.2 ㏈의 이득과 45 %의 효율을 얻었다.

• 청정기술
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• 제24권2호
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• pp.105-111
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• 2018

본 연구는 입자 내에서 패치의 위치를 정교하게 제어할 수 있는 새로운 친환경 공정기술에 관한 것이다. 물리화학적으로 안정한 소재를 활용한 미세성형 기술과 패치의 위치를 제어할 수 있는 선택적 제거방법을 결합하여 수행하였다. 미세성형 기술에는 이방성 구조의 패치입자의 형상을 안정적으로 구현하기 위하여, perfluoropolyether (PFPE) 마이크로몰드를 사용하였다. 이를 통하여, 소수성의 패치소재가 poly(dimethylsiloxane) (PDMS) 마이크로몰드 내로 확산되는 문제를 극복할 수 있었다. 그리고, 이는 패치의 우수한 형상 안정성과 소수성 패치소재를 이용한 패치입자 제조를 가능하게 하였다. 마지막으로 패치의 위치가 서로 다른 12종의 패치입자를 제조하여 향상된 공정 안정성을 확인하였다. 본 연구에서 제시한 미세성형 기술과 패치의 선택적 제거방법은 패치의 위치가 선택적으로 제어된 이방성의 입자를 적은 공정의 수를 거쳐 빠르게 제조할 수 있는 장점을 가진다. 또한 제조된 패치입자는 방향성이 유도된 자기조립 분야, 조절이 가능한 약물 전달 시스템 등의 다양한 연구에 널리 활용될 수 있으리라 기대한다.

• Steel and Composite Structures
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• 제32권5호
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• pp.671-686
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• 2019

Active control of solar panels with honeycomb core and carbon nanotube reinforced composite (CNTRC) facesheets for smart structures using piezoelectric patch sensor and actuator to reduce the amplitude of vibration is a lack of the previous study and it is the novelty of this research. Of active control elements are piezoelectric patches which act as sensors and actuators in many systems. Their low power consumption is worth mentioning. Thus, deriving a simple and efficient model of piezoelectric patch's elastic, electrical, and elastoelectric properties would be of much significance. In the present study, first, to reduce vibrations in composite plates reinforced by carbon nanotubes, motion equations were obtained by the extended rule of mixture. Second, to simulate the equations of the system, up to 36 mode shape vectors were considered so that the stress strain behavior of the panel and extent of displacement are thoroughly evaluated. Then, to have a more acceptable analysis, the effects of external disturbances (Aerodynamic forces) and lumped mass are investigated on the stability of the system. Finally, elastoelectric effects are examined in piezoelectric patches. The results of the present research can be used for micro-vibration suppression in satellites such as solar panels, space telescopes, and interferometers and also to optimize active control panel for various applications.

• 우주기술과 응용
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• 제1권1호
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• pp.33-40
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• 2021

본 논문에서는 총 무게 42 kg 이내의 요구사항을 토대로 차세대소형위성 2호 영상 레이다 시스템을 개발한 결과를 보고한다. 차세대소형위성 2호는 소형급 인공위성으로, 탑재체의 무게 비중이 전체 무게 대비 약 40% 정도를 차지하도록 설계하였다. 영상 레이다 시스템은 안테나, RF송수신기, 기저대역 신호처리기, 전력부 등으로 구성되며, 이 중에서 특히 무게 비중이 큰 부품은 영상 레이다의 핵심인 안테나이다. 안테나 설계시 이득, 효율 등을 고려한 다양한 선택이 가능하지만, 차세대소형위성 2호 사업에서 요구하는 무게, 전력 및 해상도 등을 반영하여 Micro-strip Patch Array 안테나를 채택하여 설계하였다. 차세대소형위성 2호의 임무 요구 조건에 부합하도록 안테나의 주파수는 9.65 GHz, 이득은 42.7 dBi 그리고 반사손실은 -15 dB로 규정하여 개발하였으며, 차량에 탑재한 현장시험을 통하여 요구 성능의 충족 여부를 검증하였다.