用于γ辐照和宽带电磁波能量采集的磁性复合流体橡胶传感器的研制

K. Shimada, Ryo Ikeda, H. Kikura, H. Takahashi
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引用次数: 2

摘要

我们对新型软橡胶进行了连续研究,将其用作机器人和触觉传感器中的人造皮肤。基于所提出的电解聚合方法和利用金属络合物水合物的橡胶与金属的新型粘合技术,我们开发了一种MCF橡胶传感器。该传感器使用磁性复合流体(MCF)、天然橡胶(NR胶乳)或氯丁橡胶胶乳(CR胶乳),需要施加磁场。所开发的传感器在各种工程场景和我们的日常生活中的潜在应用意义重大。在这方面,我们研究了γ辐射、红外辐射、微波和热源对MCF橡胶传感器的影响。我们确定MCF橡胶足够有效,可以用于从γ射线到微波的宽带电磁波的发电,包括太阳光谱的范围,这是本研究中获得的典型特征。值得注意的是,MCF橡胶传感器的剂量不会因γ辐照而降低。我们还证明了MCF橡胶传感器在能量收集方面的有效性。
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Development of Magnetic Compound Fluid Rubber Sensor for Practical Usage on γ-Irradiation and Energy Harvesting for Broad-Band Electromagnetic Waves
We have performed sequential studies on new types of soft rubber for their application as artificial skin in robots and haptic sensors. Based on a proposed electrolytic polymerization method and novel adhesion technique for rubber and a metal that utilizes a metal complex hydrate, we have developed an MCF rubber sensor. This sensor uses a magnetic compound fluid (MCF), natural rubber (NR-latex) or chloroprene rubber latex (CR-latex), and requires the application of a magnetic field. The potential application of the developed sensor in various engineering scenarios and our daily lives is significant. In this regard, we investigated the effects of γ-irradiation, infrared radiation, microwaves, and a thermal source on the MCF rubber sensor. We established that the MCF rubber is effective enough to be used for power generation of broadband electro-magnetic waves from γ-rays to microwaves, including the range of the solar spectrum, which is the typical characteristic obtained in the present investigation. The remarkable attribute is that the MCF rubber sensor dose is not degraded by γ-irradiation. We also demonstrated the effectiveness of the MCF rubber sensor in energy harvesting.
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