• Design & Manufacturing
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• 제16권3호
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• pp.39-43
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• 2022

In this study, we designed an vibration cutting tool that can achieve improvements such as low cutting force, interrupted chip evacuation and better surface quality of cutting performance to obtain high-quality surface roughness and improvement of tool wear, which is an issue in the machining of high-hardness mold steel. Among the resonance frequency modes of the vibration cutting tool, the bending mode was used to maximize the driving amplitude of the vibration tool tip, and the resonance frequency was confirmed through the finite element method. After measuring the actual resonant frequency of the designed tool using an optical fiber sensor, the cutting force and machining surface of vibration cutting and conventional cutting were compared and analyzed in the turning process of high hardness mold steel (STAVAX). As a result of the experiment, the cutting force was reduced by about 20 % compared to the conventional cutting process, and the surface roughness was also improved by about 60 %. This study suggested that the tool wear and surface quality of high-hardness steel can be improved through the vibration cutting method in the machining of high hardness mold steel.

• Composites Research
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• 제33권4호
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• pp.228-233
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• 2020

본 논문은 유리섬유강화 복합재료(GFRC)를 사용하여 단일 랩 전단 시험을 진행하고, 단일 랩 전단 시험을 진행하면서 연필심을 이용한 종이센서(PLDPS)를 적용하였다. 복합재료의 접착은 비스페놀-A계 에폭시와 아민계 경화제를 혼합하여 접착제로 사용하였다. 접착물성의 차이를 주기 위해 각기 다른 조건에서 경화시켰고 물성이 달라진 것을 확인하였다. 연필심을 이용한 종이센서는 A4용지에 4B연필을 사용하여 제작하였다. 연필에 있는 흑연은 전기가 통하는 물질이므로 전기저항을 측정할 수 있다. 연필심을 이용한 종이센서에 단일 랩 전단 시편에 붙은 위치에 따라 전기저항의 변화를 관찰하였고, 붙이는 두 위치에 따라 전기저항의 변화가 다르게 나오는 것을 확인하였다. 또한, 랩 전단변형률에 따라서 전기 저항의 변화도 관찰하였다. 랩 전단변형률이 높으면 전기 저항 변화도 큰 것을 확인했다. 접착부분의 변형이 클수록 시편이 휘는 정도도 커져 전극 사이의 거리변화도 크게 만들기 때문이다.

• 센서학회지
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• 제33권1호
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• pp.34-39
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• 2024

Energy harvesting technology that converts the wasted energy resources into electrical energy is emerging as a semipermanent power source for self-powered electronics and wireless low-power sensor systems. Among the various energy conversion techniques, flexible piezoelectric energy harvesters (f-PEHs), using materials with piezoelectric effects, have attracted significant interest because they can harvest a small mechanical energy into electrical signals without constraints of time and space in various environments. In this study, we used a flexible piezoelectric composite film fabricated by dispersing BaHf_xTi_(1-x)O₃ (x = 0, 0.01, 0.05, 0.1) piezoelectric powders inside a polymeric matrix to facilitate f-PEHs. The fabricated f-PEH with optimal Hf contents (x = 0.05) generated a maximum output voltage of 0.95 V and current signal of 130 nA with stable electrical/mechanical disabilities under periodically bending deformations. In addition, we demonstrated a cantilever-type f-PEH and investigated its potential as a sensor by characterizing the output performance under mechanical vibrations at various frequencies. This study provides the breakthrough for realizing self-powered energy harvesting and sensing systems by adopting the lead-free piezoelectric composites under vibrational environments.

• 전기학회논문지
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• 제62권7호
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• pp.1009-1013
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• 2013

In this study, we developed a fiber-optic goniometer for the continuous measurement of knee joint angle which provides important medical information on Alzheimer's disease. The fiber-optic goniometer is composed of a light-emitting diode (LED), a plastic optical fiber (POF), and a voltage output photodiode (PD). As a sensing part of the fiber-optic goniometer, a unclad fiber with regular intervals of 1 mm was fabricated to improve efficiency of bending loss according to the angle variation of knee joint. The emitting light with a center wavelength of 470 nm from a LED is guided by a POF to the PD, the transmitted light is then attenuated by the bending loss inside the bent POF. The intensity variation of the light transmitted from the POF gives rise to a change in output voltage in the fiber-optic goniometer. Therefore, we measured the real-time output voltage of the proposed fiber-optic goniometer using the unclad fiber according to the knee joint angle. Through the repeated experiments, the fiber-optic goniometer shows that it has a reversibility and a wide measurable angle range.

• Journal of Acupuncture Research
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• 제30권4호
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• pp.25-33
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• 2013

Objectives : To assess the test-retest reliability and the intratest repeatability in measuring the cervical range of motion of healthy subjects with wireless microelectromechanical system inertial measurement unit(MEMS-IMU) system and to discuss the feasibility of this system in the clinical setting to evaluate the cervical spine musculoskeletal. Methods : 12 healthy people who were evaluated as no- or mild-disability with neck disability index were participated. Their cervical motion were measured with IMU twice in consecutive two days for the test-retest reliability study. Intratest repeatability was calculated in the two tests separately. The calculated intraclass correlation coefficients(ICC) were discussed and compared with the those of the previous studies. Results : Cervical range of motion data were acquired and statistically processed: left rotation($61.64^{\circ}$), right rotation($65.12^{\circ}$), extension($61.98^{\circ}$), flexion($52.81^{\circ}$), left bending($39.31^{\circ}$), right bending($41.08^{\circ}$). ICCs were 0.77~0.98(intratest repeatability) and 0.74~0.93 (test-retest reliability) in the primary motion. In the coupling motion, intratest repeatability ICCs were 0.93~ 0.99(transverse primary plane), 0.88~0.97(saggital primay plane), and 0.77~0.93(coronal primary plane). Test-retest reliability of coupling motion were 0.90~0.97(transverse primary plane), 0.00~0.72(saggital primary plane), and 0.04~0.76(coronal primary plane). Conclusions : Several types of range-of-motion devices are now on use in many fields including medicine, but the practicality of the devices in clinical use is questionable for the convenient and economical aspects. In this study, we presented the reliability of cervical range of motion test with the developed wireless MEMS-IMU system and discussed its potential utility in clinical use.

• 센서학회지
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• 제9권1호
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• pp.22-27
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• 2000

고자왜특성과 연자성특성을 가짐으로서 우수한 자기기계결합특성을 나타내는 아몰퍼스 FeCoSiB 박막의 스트레인 검출특성에 대해 연구하였다. 투자율은 박막기판을 마이크로메타를 이용하여 벤딩시켜 박막에 스트레인을 인가하면서 조사하였으며, 이때 박막에 스트레인이 인가되면 박막의 자기기계결합에 의해 투자율이 변화하였다. 스트레인에 의한 성능지수 $F=({\Delta}{\mu}/{\mu})/{\varepsilon}$ (단위스트레인에 대한 투자율의 변화)가 $1.2{\times}10^5$라는 매우 높은 값을 나타내어 본 연구에서 제작한 박막이 스트레인에 대하여 고감도특성을 가지고 있음을 알 수 있었다. 또한 제작된 박막을 센서소자로 응용하기 위해 박막을 미세 가공하고, 스트레인에 대한 고주파 임피던스의 변화를 조사하였으며, 박막의 우수한 자기기계결합특성으로 박막패턴의 임피던스는 인가된 스트레인에 의해 민감하게 변화되었다. 특히, 100MHz의 구동주파수에 있어서 $300{\times}10^{-6}$의 스트레인이 인가된 경우 46%의 임피던스변화율이 얻어졌다. 따라서 본 연구에서 제작한 박막소자는 초고감도의 스트레인 센서로 사용될 수 있을 것으로 기대된다.

• 마이크로전자및패키징학회지
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• 제29권4호
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• pp.21-27
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• 2022

저렴한 전도성 흑연을 인쇄전자 공법으로 유연 압력 센서를 개발하였다. 유연 압력 센서는 의료, 게임, AI 등 미래 산업에 활용될 소재로 각광받고 있다. 유연 압력 센서용 인쇄전극을 다양한 전기-기계적 특성을 평가한 결과 최대인장률 20%, 30°의 인장/굽힘, 간이 맥박 시험에서 일정한 저항 변화율을 보였다. 이렇게 검증이 완료된 전극을 시뮬레이션하여 더 적합한 matrix 패턴을 설계하였다. Serpentine 패턴을 활용하여 matrix 패턴 제작과 인캡슐레이션을 동시에 진행할 수 있는 공정을 활용하였다. 인쇄된 흑연 전극의 한쪽 면에 접착력 증가를 위한 O₂ 플라즈마 표면처리하고, 90°회전시켜, 라미네이션 공정을 통해 2개의 전극을 하나로 제작하였다. 이렇게 제작된 matrix 패턴을 인체의 손목 맥박 위치에 부착하여 실측을 진행한 결과 남녀 상관없이 일정한 저항 변화율을 보였다.

• Smart Structures and Systems
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• 제15권4호
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• pp.997-1018
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• 2015

Structural health monitoring along with damage detection and assessment of its severity level in non-accessible reinforced concrete members using piezoelectric materials becomes essential since engineers often face the problem of detecting hidden damage. In this study, the potential of the detection of flexural damage state in the lower part of the mid-span area of a simply supported reinforced concrete beam using piezoelectric sensors is analytically investigated. Two common severity levels of flexural damage are examined: (i) cracking of concrete that extends from the external lower fiber of concrete up to the steel reinforcement and (ii) yielding of reinforcing bars that occurs for higher levels of bending moment and after the flexural cracking. The purpose of this investigation is to apply finite element modeling using admittance based signature data to analyze its accuracy and to check the potential use of this technique to monitor structural damage in real-time. It has been indicated that damage detection capability greatly depends on the frequency selection rather than on the level of the harmonic excitation loading. This way, the excitation loading sequence can have a level low enough that the technique may be considered as applicable and effective for real structures. Further, it is concluded that the closest applied piezoelectric sensor to the flexural damage demonstrates higher overall sensitivity to structural damage in the entire frequency band for both damage states with respect to the other used sensors. However, the observed sensitivity of the other sensors becomes comparatively high in the peak values of the root mean square deviation index.

• 제어로봇시스템학회:학술대회논문집
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• 제어로봇시스템학회 2005년도 ICCAS
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• pp.2290-2295
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• 2005

In this paper, it is developed simulator system of 3 D.O.F parallel robot for educate of expertness. This simulator system is composed of three parts ? 3 D.O.F parallel robot, controller (hardware) and software. First, basic structure of the robot is 3 active rotary actuator that small geared step motor with fixed base. An input-link is connected to this actuator, and this input-link can connect two ball joints. Thus, two couplers can be connected to the input-link as a pair. An end-plate, which is jointed by a ball joint, can be connected to the opposite side of the coupler. A sub-link is produced and installed to the internal spring, and then this sub-link is connected to the upper and bottom side of the coupler in order to prevent a certain bending or deformation of the two couplers. The robot has the maximum diameter of 230 mm, 10 kg of weight (include the table), and maximum height of 300 mm. Hardware for control of the robot is composed of computer, micro controller, pulse generator, and motor driver. The PC used in the controller sends commands to the controller, and transform signals input by the user to the coordinate value of the robot by substituting it into equations of kinematics and inverse kinematics. A controller transfer the coordinate value calculated in the PC to a pulse generator by transforming it into signals. A pulse generator analyzes commands, which include the information received from the micro controller. A motor driver transfer the pulse received from the pulse generator to a step motor, and protects against the over-load of the motor Finally, software is a learning purposed control program, which presents the principle of a robot operation and actual implementation. The benefit of this program is that easy for a novice to use. Developed robot simulator system can be practically applied to understand the principle of parallel mechanism, motors, sensor, and various other parts.

• JSTS:Journal of Semiconductor Technology and Science
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• 제17권1호
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• pp.141-146
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• 2017

In this letter, we propose the use of tunneling field effect transistors (TFET) as a biosensor that detects bio-molecules on the gate oxide. In TFET sensors, the charges of target molecules accumulated at the surface of the gate oxide bend the energy band of p-i-n structure and thus tunneling current varies with the band bending. Sensing parameters of TFET sensors such as threshold voltage ($V_t$) shift and on-current ($I_D$) change are extracted as a function of the charge variation. As a result, it is found that the performances of TFET sensors can surpass those of conventional FET (cFET) based sensors in terms of sensitivity. Furthermore, it is verified that the simultaneous sensing of two different target molecules in a TFET sensor can be performed by using the ambipolar behavior of TFET sensors. Consequently, it is revealed that two different molecules can be sensed simultaneously in a read-out circuit since the multi-sensing is carried out at equivalent current level by the ambipolar behavior.