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Piezoelectric sensor characterization for structural strain measurements

Aliakbar Ghaderiaram, Navid Vafa, Erik Schlangen, Mohammad Fotouhi

2025Sensors and Actuators A Physical10 citationsDOIOpen Access PDF

Abstract

Accurate and reliable strain measurement is essential for effective condition monitoring of engineering structures. This study presents an analytical and experimental investigation into the performance of piezoelectric sensors for structural strain measurements, evaluating the effect of attachment strategy and the properties of the substrate and the sensor. Lead zirconate titanate (PZT) and polyvinylidene fluoride (PVDF) sensors were evaluated in two attachment configurations: Fully Attached (FA) and Two-End Attached (TEA). A voltage-strain relationship was developed based on principles of piezoelectricity, electrical circuit modelling, and solid mechanics. Results indicate that sensor performance is significantly influenced by the attachment method. Specifically, the TEA configuration reduced the impact of substrate properties and improved uniaxial strain measurement accuracy by up to 32% compared to the FA configuration. The FA configuration exhibited sensitivity to the substrate's Poisson ratio, leading to a nonlinear voltage-strain response. In contrast, the TEA configuration provided pure uniaxial strain measurements by reducing the effects of shear lag and substrate elasticity. These findings provide a comprehensive approach to using piezoelectric sensors for structural strain measurement, allowing for the placement of sensors on various substrates without the need for calibration by effectively utilizing sensor and substrate properties along with the attachment strategy. The study provides a novel analytical–experimental comparison of sensor attachment methods, showing how TEA significantly improves uniaxial strain accuracy and reduces substrate dependency in piezoelectric strain measurements. • The study combines theory and experiment on piezoelectric strain sensing. • FA and TEA configurations were compared to show how bonding affects sensor output. • PZT and PVDF sensors were analyzed under different attachment conditions. • FA showed Poisson sensitivity while TEA improved uniaxial strain accuracy. • Framework enables sensor use on different substrates without recalibration.

Topics & Concepts

Characterization (materials science)PiezoelectricityStrain (injury)Materials sciencePiezoelectric sensorAcousticsComposite materialPhysicsNanotechnologyInternal medicineMedicineStructural Health Monitoring TechniquesUltrasonics and Acoustic Wave PropagationAeroelasticity and Vibration Control