Characterization of a new interpenetrated network conductive polymer (IPN-CP) as a potential actuator that works in air conditions

机译：新型互穿网络导电聚合物（IPN-CP）的表征，作为在空气条件下工作的潜在致动器

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This paper presents the characterization in terms of force and displacement of a new interpenetrated network conductive polymer (IPN-CP) to be used as an actuator that works in air conditions. This last property opens many potential applications in robotics, bionics, haptics interface technology (namely tactile feedback devices), etc. Different experimental investigations show that the proposed actuator exhibits acceptable force behavior and capabilities (relatively to its size and mass) when classical solvents are used. However, IPN-CP with ionic liquid solvents show poor capabilities. Since ionic solvents guarantee long life usability, we found it somehow disappointing namely for robotic applications. We give some explanations for that, but we believe that this drawback could mid solutions in the near future.

机译：本文介绍了一种新型互穿网络导电聚合物（IPN-CP）的力和位移特性，该聚合物将用作在空气条件下工作的致动器。最后的特性在机器人技术，仿生学，触觉接口技术（即触觉反馈设备）等方面开辟了许多潜在的应用。不同的实验研究表明，当使用传统溶剂时，建议的执行器表现出可接受的力性能和能力（相对于其大小和质量）。用过的。但是，使用离子液体溶剂的IPN-CP的性能较差。由于离子溶剂保证了较长的使用寿命，因此我们发现它对于机器人应用来说有点令人失望。我们对此进行了一些解释，但我们认为，此缺点可能会在不久的将来成为解决方案的中间部分。

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《Intelligent Robots and Systems, 2004. (IROS 2004). Proceedings. 2004 IEEE/RSJ International Conference on》|2004年|p.913-918|共6页
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Citerin; J.; Kheddar; A.; Hafez; M.; Vidal; F.; Plesse; C.; Teyssie; D.; Chevrot; C.;
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中图分类无线电电子学、电信技术;
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polymer blends; air; actuators; robots; biocybernetics; haptic interfaces; interpenetrated network conductive polymer; potential actuator; air condition; robotics application; bionics application; haptics interface technology; tactile feedback device; ionic liquid solvent;

机译：聚合物共混物;空气;促动器;机器人;生物网络学;触觉界面;互穿网络导电聚合物;电位致动器;空调;机器人技术;仿生学应用;触觉界面技术;触觉反馈装置;离子液体溶剂;

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2. Synthesis and characterization of conducting interpenetrating polymer networks for new actuators [J] . Plesse C, Vidal F, Randriamahazaka H, Polymer: The International Journal for the Science and Technology of Polymers . 2005,第18期

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4. Characterization of a new interpenetrated network conductive polymer (IPN-CP) as a potential actuator that works in air conditions [C] . Citerin J., Kheddar A., Hafez M., IEEE/RSJ International Conference on Intelligent Robots and Systems . 2004

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机译：导电填料形态对离子聚合物导电网络复合致动器性能的影响

Characterization of a new interpenetrated network conductive polymer (IPN-CP) as a potential actuator that works in air conditions

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