0-3钛酸钡pdms柔性薄膜触觉传感

2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2020-05-01 DOI:10.1109/I2MTC43012.2020.9128512

Kiran Kumar Sappati, S. Bhadra

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引用次数: 5

摘要

采用简单的工艺制备了无铅BaTiO3-PDMS压电复合薄膜。将20%、30%、40%和50%的BaTiO3分散在交联PDMS基质中制备复合膜。对薄膜进行电晕极化以提高薄膜的压电性能。通过测量在压缩力作用下沿薄膜厚度产生的电荷来研究薄膜的压电特性。极化率为50%的BaTiO3-PDMS薄膜的压电电荷常数为178 pC/N，介电常数为4.59。拉伸试验表明，这些薄膜具有很低的杨氏模量，非常柔软和灵活。50 wt %极化BaTiO3-PDMS薄膜的杨氏模量为3.92 Mpa。薄膜产生的电荷与手指施加在薄膜上的压力成正比。因此，它证明了触觉传感的有效性。作为触觉传感器，50 wt%极化薄膜的灵敏度为38.34 kPa−1。对微小力的高电荷响应使该复合材料成为触觉传感应用的良好候选者，如机器人皮肤和触摸垫。

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0-3 Barium Titanate-PDMS Flexible Film for Tactile Sensing

Lead free BaTiO3-PDMS piezoelectric composite thin films are fabricated with simple process. Composite films are prepared by dispersing 20, 30, 40, and 50 wt% of BaTiO3 in cross-linked PDMS matrix. Corona poling of the films is performed to improve the piezoelectric properties of the films. Piezoelectric properties of the films are studied by measuring the charge developed across the thickness of the film under a compressive force. A 50 wt% poled BaTiO3-PDMS film has shown a piezoelectric charge constant of 178 pC/N and achieves a dielectric constant of 4.59. Tensile tests indicate that these films are very soft and flexible with low Young’s modulus. A 50 wt % poled BaTiO3-PDMS film film has shown a Young’s modulus 3.92 Mpa. The film generates charge across the film proportional to the finger pressure applied on them. Thus it demonstrates effectiveness for tactile sensing. As a tactile sensor a 50 wt% poled film shows a sensitivity of 38.34 kPa−1. High charge response for tiny forces makes the composite a good candidate for tactile sensing applications such as robotic skin and touch pads.

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来源期刊

2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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