Accounting for Viscoelasticity When Interpreting Nano-Composite High-Deflection Strain Gauges

High-deflection strain gauges show potential as economical and user-friendly sensors for capturing large deformations. The interpretation of these sensors is much more complex than that of conventional strain gauges due to the viscoelastic nature of strain gauges. This research endeavor developed an...

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Veröffentlicht in:Sensors (Basel, Switzerland) Switzerland), 2022-07, Vol.22 (14), p.5239
Hauptverfasser: Baker, Spencer A., McFadden, McKay D., Bowden, Emma E., Bowden, Anton E., Mitchell, Ulrike H., Fullwood, David T.
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Sprache:eng
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Zusammenfassung:High-deflection strain gauges show potential as economical and user-friendly sensors for capturing large deformations. The interpretation of these sensors is much more complex than that of conventional strain gauges due to the viscoelastic nature of strain gauges. This research endeavor developed and tested a model for interpreting sensor outputs that includes the time-dependent nature of strain gauges. A model that captures the effect of quasi-static strains was determined by using a conventional approach of fitting an equation to observed data. The dynamic relationship between the strain and the resistance was incorporated by superimposing dynamic components onto the quasi-static model to account for spikes in resistances that accompany each change in sensor strain and subsequent exponential decays. It was shown that the model can be calibrated for a given sensor by taking two data points at known strains. The resulting sensor-specific model was able to interpret strain-gauge electrical signals during a cyclical load to predict strain with an average mean absolute error (MAE) of 1.4% strain, and to determine the strain rate with an average MAE of 0.036 mm/s. The resulting model and tuning procedure may be used in a wide range of applications, such as biomechanical monitoring and analysis.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22145239