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Investigation of the 2312 flexoelectric coefficient component of polyvinylidene fluoride: Deduction, simulation, and mensuration.


ABSTRACT: Flexoelectric effects hold promising applications in sensing, actuating, and energy capturing, and thus it is demanded to measure the flexoelectric coefficient tensors of dielectric materials accurately. In this work, an approach to measuring the effective flexoelectric coefficient tensor component ? 2312 of polymeric materials is developed by imposing a torque load upon a half cylindrical specimen. It is proven that ? 2312 can be calculated by assessing the electric charge on the axial plane and the strain gradient along the radial direction, both induced by the torque. To overcome the difficulty in experimental measurements, the relationship between the strain gradient and torque is deduced theoretically and further verified with finite element analysis. This approach is applied to testing bars machined from bulk polyvinylidene fluoride (PVDF). Potential errors from the piezoelectric effects and the non-uniform strain gradient are discussed to verify the validity of the measurement. The experimental results show good reproducibility and agreement with other measured effective flexoelectric tensor components of PVDF. This work indicates a potential application of PVDF-based mechanical sensors and provides a method to investigate the effective flexoelectric coefficient component of polymers.

SUBMITTER: Zhang S 

PROVIDER: S-EPMC5466657 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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Investigation of the 2312 flexoelectric coefficient component of polyvinylidene fluoride: Deduction, simulation, and mensuration.

Zhang Shuwen S   Liu Kaiyuan K   Xu Minglong M   Shen Hao H   Chen Kai K   Feng Bo B   Shen Shengping S  

Scientific reports 20170609 1


Flexoelectric effects hold promising applications in sensing, actuating, and energy capturing, and thus it is demanded to measure the flexoelectric coefficient tensors of dielectric materials accurately. In this work, an approach to measuring the effective flexoelectric coefficient tensor component μ <sub>2312</sub> of polymeric materials is developed by imposing a torque load upon a half cylindrical specimen. It is proven that μ <sub>2312</sub> can be calculated by assessing the electric charge  ...[more]

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