PDMS基底微纳结构超材料柔性位移传感机理及应用研究

项目名称： PDMS基底微纳结构超材料柔性位移传感机理及应用研究

项目编号： No.61573039

项目类型： 面上项目

立项/批准年度： 2016

项目学科： 自动化技术、计算机技术

项目作者： 冯迪

作者单位： 北京航空航天大学

项目金额： 16万元

中文摘要： 作为最基本、最主要的几何量，位移传感测量在工程技术领域有重要意义。本项目提出了一种全新的位移传感测量方法。利用有机聚合物PDMS的柔软可变形性直接贴附在被测物体上感受物体的位移变化，同时利用微纳加工技术和表面等离子激元理论，在PDMS基底上设计、制备金属微纳结构超材料，使得物体位移量转化为PDMS的变形量，进一步引起超材料微纳结构的空间变化，通过探测经过超材料调制后出射光波的特性（频率振幅等），完成对位移量的传感测量。该方法的位移传感单元质量轻、体积小、无任何外接引线、可以与被测物良好匹配，并且因为超材料的人工设计特性和PDMS的强柔韧性，可适应不同的测量量程。项目主要研究柔性基底超材料位移传感机理、柔性基底材料与金属微纳结构的匹配、位移传感单元的微纳制备和进行原理性位移测量实验。研究不仅对柔性基底超材料研究有重要理论和实际指导意义，而且将发展一种全新的位移量测量方法，实际应用前景广泛。

中文关键词： 超材料；位移传感；表面等离子极化；柔性材料；

英文摘要： As a minimum, the most important geometric measurement, accurate and convenient measurement of displacement sensing in the field of engineering technology has important significance. Otherwise, in environment test, lots of conventional displacement transducers aren’t suitable, for example aimed to measure the displacement in the interlayer structure of weapon, because the volume of sensor is too large to install, or the test plane of narrow interlayer must be dealed with. So this project proposes a new method for measuring the displacement. This method uses an organic polymer PDMS soft substrate, and it is deformable, and can be directly attached to the object which will produce displacement. By taking advantage of surface plasmon polaritons and metamaterial theory, the micro/nano structures can be designed and fabricated on the PDMS, when the object moves, the PDMS will be deformed by the moving of object, so the spatial location of micro/nano structures will be changed also, which will modulate the output lightwave’s characteristics. After measuring the output characteristics (like frequency or amplitude, etc), the object’s displacement can be sensed and measured. The structure of sensor is compact, and the measuring system is simple also. The displacement sensing unit is light weight, small size, and w

英文关键词： metamaterials；displacement sensing；surface plasmon polaritons；flexible material；