H. Natsuhara, T. Katsuno, X. Chen, S. Yang, S. Motojima, M. Takaki, T. Kuzuya, K. Kawabe
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引用次数: 6
摘要
通过阻抗Z与基体中CMC含量的关系,研究了CMC/硅酮复合材料的触觉和接近传感性能。CMC作为接近传感器元件的最佳含量为3 wt%,而触觉传感器的性能随CMC含量的增加而增强(超过7 wt%)。CMC传感器元件的表面尺寸为300 × 300 mm, CMC含量为3wt %,能够检测到距离CMC传感器元件约30 cm的人手掌的存在。此外,在刚接触时观察到阻抗Z的剧烈变化。我们成功地制备了具有触觉和接近传感特性的CMC传感器元件。
Multifunctional CMC/silicone composite sensor elements as the tactile and proximity sensors
The tactile and proximity sensing properties of CMC/silicone composites were studied by evaluating with the impedance Z as a function of CMC content in matrix. The optimum CMC content as proximity sensor element was 3 wt%, while the tactile sensor properties were increased in intensity with CMC content (over 7 wt%). The CMC sensor element with surface size of 300 times 300 mm and with a CMC content of 3 wt% is able to detect the existence of a human palm that is about 30 cm away from CMC sensor element. Furthermore, the dramatic change of impedance Z was observed at just contact. We succeeded in the preparation of CMC sensor element with tactile and proximity sensing property.
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