Fully 3D Printed Mechanical Pressure Sensors: A Comparison of Sensing Mechanisms

2020 IEEE Sensors Pub Date : 2020-10-25 DOI:10.1109/SENSORS47125.2020.9278862
R. V. Dommelen, Julien Berger, R. Haque, M. Binelli, G. Siqueira, A. Studart, D. Briand
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引用次数: 4

Abstract

Recent advances in 3D printing techniques are allowing for new ways to manufacture sensors with materials and geometries previously not exploited. In this work we present a fabrication approach for fully 3D printed soft mechanical pressure sensors, as well as their characterisation. These sensors were created out of soft materials only using the Direct Ink Writing (DIW) printing technique. The applicability of both piezoresistive and capacitive transducing mechanisms were evaluated for the sensing of normal pressures. The produced sensors were tested by means of automated mechanical tests and compared based on their performance. In this way, we determined and analysed both their static and dynamic behaviours.
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全3D打印机械压力传感器:传感机制的比较
3D打印技术的最新进展为使用以前未开发的材料和几何形状制造传感器提供了新的方法。在这项工作中,我们提出了一种完全3D打印软机械压力传感器的制造方法,以及它们的特征。这些传感器由软材料制成,仅使用直接墨水书写(DIW)打印技术。评估了压阻式和电容式两种换能器在常压传感中的适用性。采用自动化机械测试对所生产的传感器进行了测试,并对其性能进行了比较。通过这种方式,我们确定并分析了它们的静态和动态行为。
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2020 IEEE Sensors
2020 IEEE Sensors
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