Design and Study of a PVDF Piezoelectric Film Force Sensor Based on Interface Force Field Reconstruction and Surface Domain Segmentation
Kaiqiang Yan, Wenge Wu, Xinyi Wu, Yunping Cheng, Lijuan Liu, Yongjuan Zhao, Yicheng Zhang, Pengcheng Liu, Zhi Wang

TL;DR
This paper presents a new PVDF piezoelectric film sensor design that can accurately measure three-dimensional forces with high sensitivity and linearity.
Contribution
A novel sensor design using interface force field reconstruction and surface domain segmentation to enable multi-dimensional force measurement with PVDF film.
Findings
The sensor achieved charge sensitivities of 52.63 pC/N (X), 55.96 pC/N (Y), and 9.02 pC/N (Z) with linearity ≤4.6%.
The sensor has a natural frequency of 4675.5 Hz, indicating good dynamic performance.
The sensor successfully captured triaxial cutting forces under varying machining parameters.
Abstract
The accurate measurement of dynamic forces is pivotal for advancing manufacturing process monitoring and enhancing equipment intelligence. To address the challenges of contact interface force field nonlinearity in existing PVDF piezoelectric film force sensors and the inability of a monolithic PVDF piezoelectric film to measure multi-dimensional forces, this study designs a uniform-load double-bossed elastic force-transmitting diaphragm to achieve contact interface force field reconstruction between the sensor’s elastic sensing structure and the sensitive element group. Building upon the load-bearing surface domain segmentation technique, the silver ink electrode on the front surface of a complete circular PVDF piezoelectric film is segmented into four independent sector-shaped rings. Each sector ring, together with its underlying PVDF piezoelectric film, constitutes a sensitive…
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Taxonomy
TopicsAdvanced Sensor and Energy Harvesting Materials · Soft Robotics and Applications · Adhesion, Friction, and Surface Interactions
