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Enhanced piezoelectric properties and electrical resistivity in CaHfO3 modified BiFeO3BaTiO3 lead-free piezoceramics

Jianwei Zhao, Hailan Qin, Xiaoxin Chen, Shuhui Yu, Dawei Wang

2023Journal of Materiomics12 citationsDOIOpen Access PDF

Abstract

A number of CaHfO3 modified BiFeO3-0.33BaTiO3 (BF-0.33BT-xCH) lead-free piezoceramics were fabricated through the solid-state sintering method and comprehensively investigated in this work. Under the optimal sintering temperature, all compositions display a typical perovskite structure in a pseudo-cubic phase with slightly larger lattice parameters as the CH content increases. The electrical resistivity is highly enhanced due to the addition of CH. Microstructures, including the grain morphology, core-shell structure, and chemistry inhomogeneities, are demonstrated upon different BF-0.33BT-xCH compositions. In particular, the core-shell structures with non-uniform element distributions in the compositions can be eliminated by adding sufficient CH content (x > 0.05). The highest saturation polarization (40.1 μC/cm2), remnant polarization (26.8 μC/cm2), and converse piezoelectric coefficient (290 pm/V) are achieved in the BF-0.33BT-0.01CH piezoceramic, which are significantly enhanced in comparison with the undoped BF-0.33BT piezoceramic. With further increasing the CH content, the piezoelectric properties of BF-0.33BT-xCH ceramics decline rapidly, and they start to exhibit characteristics of relaxor ferroelectrics.

Topics & Concepts

Materials sciencePiezoelectricitySinteringElectrical resistivity and conductivityCeramicPiezoelectric coefficientMicrostructureSaturation (graph theory)Polarization (electrochemistry)Composite materialGrain sizeLattice constantMineralogyDiffractionOpticsChemistryPhysical chemistryMathematicsPhysicsElectrical engineeringEngineeringCombinatoricsFerroelectric and Piezoelectric MaterialsMultiferroics and related materialsDielectric materials and actuators
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