• Title/Summary/Keyword: Ionic polymer metal composite (IPMC)

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Ionic Polymer-Metal Composite Actuator with Increased Air-Operating stability by Using Ionic Liquids

  • Lee, Jang-Yeol;Han, Man-Jae;Lee, Sung-Won;Park, Sun-Jin;Yoon, Bye-Ri;Jho, Jae-Young
    • Proceedings of the Polymer Society of Korea Conference
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    • 2006.10a
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    • pp.246-246
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    • 2006
  • Ionic polymer-metal composite (IPMC) soaked with various ionic liquids was prepared by using polystyrene sulfonic acid-grafted poly(vinylidene fluoride-co-hexafluoropropylene) as ion-exchange membrane (IEM). The prepared IPMCs were effectively deformed three times larger and actuated for 300 times longer than those of Nafion with water at the same applied conditions. The experimental results indicated than the increase in the bending capability can be caused by the increase in the improved properties of the IEMs and ionic liquids such as uptake content and ionic conductivity. And air-operating stability of the IPMCs is appreciably governed by various physical and electrochemical properties of soaked solvents in IEMs.

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Study on Grasping Performance of Finger Exoskeleton Actuated by Electroactive Polymers (전기활성 고분자 구동 손가락 외골격 장치의 잡기 성능에 관한 연구)

  • Kim, Min Hyeok;Lee, Soo Jin;Jho, Jae Young;Kim, Dong Min;Rhee, Kyehan
    • Journal of the Korean Society for Precision Engineering
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    • v.32 no.10
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    • pp.873-878
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    • 2015
  • A finger exoskeleton actuated by ionic polymer metal composite (IPMC) actuators has been developed. In order to evaluate performance of cylindrical grasping of finger exoskeletons, they were equipped with a hand dummy, which is composed of four fingers. The finger dummy has three joints that can be actuated by bending the IPMC actuators. A four finger grasping motion was analyzed using cameras, and cylindrical grasping motion was accomplished within two minutes after applying a 4 volt direct voltage to the IPMC actuators. A pull out test was also performed to evaluate the cylindrical grasping force of the finger exoskeletons actuated by the IPMC actuators. Each finger generated about 2 N of holding force when grasping the cylinder which had a diameter of 50 mm.

Analysis of Pinching Motion of a Finger Dummy Actuated by Electro-active Polymer Actuators (전기활성 고분자 구동체에 의한 손가락 모형의 집기 운동 분석)

  • Lee, Doo Won;Min, Min Sik;Lee, Soo Jin;Jho, Jae Young;Kim, Dong Min;Rhee, Kyehan
    • Journal of the Korean Society for Precision Engineering
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    • v.31 no.7
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    • pp.643-649
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    • 2014
  • In order to demonstrate the possibility of applying an ionic polymer metal composite (IPMC) to a finger exoskeleton, pinching motion analysis was performed for a thumb-index finger dummy actuated by IPMC actuators. The IPMC actuators of 5mm in width and 40mm in length with 2.4mm thickness generated 1.52N of blocking force for the applying voltage of 4.0V. Three actuators were installed on the three rotary joint of an index finger, and one actuator was installed on one proximal joint. Positions of each joint and finger tip were recorded on the video camera, and motion was analyzed. Power supply to the index finger actuators preceded power supply to the thumb actuator, and key pinching motion was accomplished in 180s. Tip pinching was accomplished in 135s as power supply to the thumb preceded power supply to the index finger.

Electroactive Polymer Actuator for Lens-Drive Unit in Auto-Focus Compact Camera Module

  • Lee, Hyung-Kun;Choi, Nak-Jin;Jung, Sun-Kyung;Park, Kang-Ho;Jung, He-Won;Shim, Jae-Kyu;Ryu, Jae-Wook;Kim, Jong-Dae
    • ETRI Journal
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    • v.31 no.6
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    • pp.695-702
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    • 2009
  • We propose a lens-drive unit composed of an ionic polymer-metal composite (IPMC) for an auto-focus compact camera module in cellular phones to solve the power consumption problem of voice coil motors which are widely used in commercial products. In this research, an IPMC incorporated into a lens-drive unit is designed to implement a large displacement in low-power consumption by using an anisotropic plasma treatment. Experimental results show that a camera module containing IPMCs can control and maintain the position of the lens by using proportional integral derivative control with a photo-reflective position sensor despite the non-linear actuation behavior of IPMCs. We demonstrate that the fabrication and commercialization of a lens actuator that has a large displacement and low power consumption using IPMCs is possible in the near future.

Improvement of Mechanical Properties of IPMC through Developing a Degree of Dispersion of SWCNT/Nafion Composite (SWCNT/Nafion 복합체의 분산능 향상을 통한 IPMC의 기계적 특성 향상)

  • Kwon, Hui-June;Kim, Ha-Na;Kang, Jung-Ho
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.10 no.5
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    • pp.131-136
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    • 2011
  • Many researchers are recently studying about Electroactive polymer(EAP). But it has a physical limitation, because of property of material. Carbon nanotube(CNT) is known as the promising material which has excellent electro-mechanical characteristics and is mostly defect-free. It is expected that a successful synthesis of CNT and Nafion known as a primary material for IPMC would make a great improvement on its electro-mechanic feature. This study focuses on the method of synthesis of CNT with Nafion which improves electro-mechanical characteristic. To come up with mechanical dispersion with Nafion and Isopropyl Alcohol(IPA), we dispersed Single-walled carbon nanotubes(SWCNTs). For a uniformly layer of CNT, we used a spray gun on a hot plate by a simplified method. We fabricated a disperse SWCNT/Nafion composite uniformly. Through the use of the E-beam evaporator to form an uniform electrode layer, we consummated the IPMC actuator. This result shows improving 1.5 times mechanical properties about driving force in IPMC.

Modeling of IPMC Actuator for the Endoscopic Microcapsule (캡슐형 내시경 로봇의 IPMC 액추에이터 모델링)

  • Oh, Sin-Jong;Kim, Hun-Mo;Choi, Hyouk-Ryeol;Jeon, Jae-Wook;Nam, Jae-Do
    • Proceedings of the KSME Conference
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    • 2001.11a
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    • pp.660-666
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    • 2001
  • The Ionic Polymer Metal Composite (IPMC) is one of the electroactive polymer (EAP) have potential application as micro actuators. In this study, IPMC is used as actuator to control of the direction for the endscopic microcapsule. Because it bends in water and wet conditions by applying a low voltage $(1\sim3\;V)$ to its surfaces. The basic characteristics and the static modeling of IPMC are discussed. Also the dynamic modeling is performed using the Lagrange' equation. Computer simulation results show that the performed modeling guarantee similarity of actual system.

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Biomimetic Design of IPMC Actuator having Webfoot Form (생체모방 물갈퀴형 IPMC 구동기 설계)

  • Kim, Seon-Gi;Kim, On-Ah;Lee, Seung-Yop
    • Proceedings of the KSME Conference
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    • 2008.11a
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    • pp.1558-1562
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    • 2008
  • Ionic polymer metal composite (IPMC), one of Electro- Active Polymer (EAP) actuators, has great attention due to the low-voltage driven, large deformation and its potential for artificial muscles. In this paper, we firstly review fish swimming modes using various propulsion mechanisms. Based on study on the swimming mechanisms, we develop an underwater robot actuator which mimics fanning motion of webfoot form. It consists of four actuators fabricated by using IPMC and PDMS which mimics Bio-inspired motion Experiments using a prototype show that the webfooted IPMC actuator generates large deformation and propulsion.

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Study of a Conducting Nafion Film-Gold Electrode Actuator (전도성 네피온필름-금 전극층 액츄에이터에 관한 연구)

  • Jung, Won-Chae;Kim, Hyung Min
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.26 no.5
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    • pp.360-366
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    • 2013
  • For conventional electrical actuators, the materials are mainly made up of metals, which mean they are prone to corrosion and electrical sparking. Replacing these systems with polymer metal composite based materials can be solved both problems. Considering their excellent electromechanical property, low device fabrication cost, light weight, and good electrical conductivity, the actuator based on ionic polymer metal composite (IPMC) was fabricated using Nafion film, NaOH 0.1 molar solution, and Au electrode. IPMCs exhibit good electrostatic property which means they can in principle be used in making actuators based on electromechanical motions. The resistance measurements of Nafion film after soaking in NaOH and deionized water were demonstrated and compared each other. The result of sample soaked in NaOH showed better electrical conductivity than in deionized water. The fabricated IPMC actuator exhibits a large deformation of bending displacement of approximately 9 mm with applied low AC voltage 6.89 V at 2.84 Hz. The result of computer simulation was also very similar and shown as a bending displacement of 8.6085 mm.

MDOF Ionic-Polymer-Metal-Composite Actuators with Selectively Grown Multiple Electrodes (선택적으로 성장 시킨 다중 전극판을 갖는 다자유 IPMC 작동기)

  • Jeon, Jin-Han;Oh, Il-Kwon
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2008.04a
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    • pp.294-298
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    • 2008
  • The ionic polymer-metal composite actuators with selectively grown multiple electrodes were developed to mimic the swimming locomotion of a fish. The developed method is based on combining electroplating with the electroless chemical reduction using the patterned mask. The advantages of this fabrication method are that the initial compositing between the polymer and platinum particles can be assured by the chemical reduction method, and the thickness of each electrode can be controlled easily and rapidly by electroplating. By using the fabricated actuator with a multiple degree of freedom, the oscillatory wave of the flexible membrane actuator was generated and a twisting motion was also realized to verify the possibility of mimicking the fish-like locomotion. The frequency response function was analyzed to investigate the natural frequency and the damping factor by a mechanical shaker and direct electrical excitation through the swept-sine method. Present results show that this novel method can be a promising technique to easily pattern each of multiple electrodes and to implement the biomimetic motion of the polymer actuators with good mechanical bending performance.

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Trends of Nafion-based IPMC Application and Development (Nafion 기반 IPMC 응용 및 개발 동향)

  • Ho, Donghae;Cho, Sooyoung;Choi, Yoon Young;Choi, Young Jin;Cho, Jeong Ho
    • Ceramist
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    • v.23 no.1
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    • pp.16-26
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    • 2020
  • Recently, polymer-metal composite (IPMC)-based ionic artificial muscle has been drawing a huge attention for its excellent soft actuator performance having outstanding soft actuator performance with efficient conversion of electrical energy to mechanical energy under low working voltage. In addition, light, flexible and soft nature of IPMC and high bending strain response enabled development of versatile sensor application in association with soft actuator. In this paper, current issues of IPMC were discussed including standardizing preparation steps, relaxation under DC bias, inhibiting solvent evaporation, and improving poor output force. Solutions for these drawbacks of IPMC have recently been suggested in recent studies. After following explanation of the IPMC working mechanism, we investigate the main factors that affect the operating performance of the IPMC. Then, we reviewed the optimized IPMC actuator fabrication conditions especially for the preparation process, additive selection for a thicker membrane, water content, solvent substitutes, encapsulation, etc. Lastly, we considered the pros and cons of IPMCs for sensor application in a theoretical and experimental point of view. The strategies discussed in this paper to overcome such deficiencies of IPMCs are highly expected to provide a scope for IPMC utilization in soft robotics application.