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A novel fabrication process to realise piezoelectric cantilever structures for smart fabric sensor applications

机译：一种新颖的制造工艺，用于实现用于智能织物传感器应用的压电悬臂结构

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摘要

This paper reports a novel process for realising freestanding piezoelectric cantilevers printed on fabric for potential use as a wearable sensor. Piezoelectric cantilever structures were fabricated by screen printing a piezoelectric stack on top of a structural layer that is supported by a sacrificial material during printing. The sacrificial layer was subsequently removed in an oven at 160 °C for 30 minutes which is sufficient to fully release the cantilever beam from the substrate. The samples were polarised by applying an electric field across the piezoelectric stack. Testing on an electromechanical shaker shows that the cantilevers have resonant frequencies at 390 and 260 Hz for beam lengths of 12 and 15 mm, respectively. The beams produced maximum outputs of 38 and 27 mV at an acceleration of 11.76 m/s2, respectively

机译：本文报道了一种新颖的方法，可以实现印刷在织物上的独立式压电悬臂梁，潜在地用作可穿戴传感器。压电悬臂结构是通过在结构层的顶部丝网印刷压电叠层来制造的，该结构层在打印过程中由牺牲材料支撑。随后在160℃的烘箱中将牺牲层去除30分钟，这足以从衬底上完全释放悬臂梁。通过在压电叠层上施加电场来极化样品。在机电振动器上进行的测试表明，悬臂在12和15 mm的光束长度下分别具有390 Hz和260 Hz的共振频率。光束以11.76 m / s2的加速度分别产生38和27 mV的最大输出

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Wei Yang; Torah Russel; Yang Kai; Beeby Steve; Tudor John;
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年度 2012
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. A screen printable sacrificial fabrication process to realise a cantilever on fabric using a piezoelectric layer to detect motion for wearable applications [J] . Wei Y., Torah R., Yang K., Sensors and Actuators, A. Physical . 2013,第Null期

机译：可丝网印刷的牺牲制造工艺，可使用压电层在织物上实现悬臂以检测可穿戴应用的运动
2. Screen printing of a capacitive cantilever-based motion sensor on fabric using a novel sacrificial layer process for smart fabric applications [J] . Yang Wei, Russel Torah, Kai Yang, Measurement Science & Technology . 2013,第7期

机译：使用新型牺牲层工艺在织物上基于电容性悬臂的运动传感器进行丝网印刷，用于智能织物应用
3. Low frequency piezoelectric P(VDF-TrFE) micro-cantilevers with a novel MEMS process for vibration sensor and energy harvester applications [J] . Rashmi K. R., Rao Arjun Sunil, Jayarama A., Smart Materials & Structures . 2019,第6期

机译：低频压电P（VDF-TRFE）微型悬臂，具有新型MEMS工艺的振动传感器和能量收割机应用
4. A novel fabrication process to realise piezoelectric cantilever structures for smart fabric sensor applications [C] . Wei Yang, Torah Russel, Yang Kai, IEEE Sensors . 2012

机译：实现智能织物传感器应用的压电悬臂结构的新型制造工艺
5. Synthesis, fabrication, and characterization of self-exciting, self-sensing PZT/silicon dioxide piezoelectric micro-cantilever sensors [D] . Shen, Zuyan 2006

机译：自激，自感应PZT /二氧化硅压电微悬臂梁传感器的合成，制备和表征
6. Fabrication of Biobased Hydrophobic Hybrid CottonFabrics Using Molecular Self-Assembly: Applications in the Developmentof Gas Sensor Fabrics [O] . Ayyapillai Thamizhanban, Guru Prasanth Sarvepalli, Krishnamoorthy Lalitha, 2020

机译：生物基疏水杂交棉的制备使用分子自组装的织物：在开发中的应用气体传感器面料
7. A novel fabrication process for capacitive cantileverstructures for smart fabric applications [O] . Wei Yang, Torah Russel, Yang Kai, 2012

机译：一种新颖的电容式悬臂制造工艺智能织物应用的结构
8. Characterization of Piezoelectric ZnO thin Films and the Fabrication of Piezoelectric Micro-Cantilevers Master's thesis [R] . Johnson, R. L. 2005

机译：压电ZnO薄膜的表征及压电微悬臂梁的制作

A novel fabrication process to realise piezoelectric cantilever structures for smart fabric sensor applications

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