Overview
FrançaisABSTRACT
Lead based ferroelectrics, represented by lead zircono-titanate Pb(Zr,Ti)O3 (PZT) are the most widely used materials for acoustic actuators, sensors and transducers due to their excellent piezoelectric properties. However, based on hazardous substances restriction legislation, it is necessary to remove lead from piezoelectric ceramics. This article describes the three most promising groups of lead-free piezoelectric ceramics currently under discussion to replace PZT: BT, KNN and BNT-based ceramics. Here, are presented, the synthesis, the structural & functional properties and the applications of these materials.
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Read the articleAUTHOR
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Ana BORTA-BOYON: Dr., R&D Materials Engineer, Chemistry and Multifunctional Materials Laboratory, THALES Research & Technology France, 91120 Palaiseau, France
INTRODUCTION
Piezoelectric ceramics of the lead zircono-titanate type, with the general formula PbZr 1-x T ix O 3 (PZT), discovered in the 1950s, have been intensively studied and are massively used in many industrial applications (transducers, sensors, ultrasonic motors) due to their high-performance electromechanical properties. However, the development of electrical and electronic equipment has been marked by a growing awareness of the health and environmental impacts of the materials used. Legislation was progressively introduced, first in Japan, then in Europe, China and the United States, with the aim of limiting the use of toxic substances. Among the elements targeted is lead, whose toxicity is no longer in doubt. This situation led several laboratories around the world to carry out in-depth studies in search of new lead-free compositions with a perovskite structure and dielectric and piezoelectric properties comparable to those of PZT. As a result of the studies, three major families of lead-free piezoelectric materials were developed: BaTiO 3 , K x Na 1-x NbO 3 and Bi x Na 1-x TiO 3 /BiFeO 3 .
This article is divided into two main sections. After a review of the specific properties of piezoelectric materials, particularly PZTs, we focus on the environmental context and the benefits of obtaining lead-free piezoelectric materials. In the second part, we list the three main families of piezoelectric materials, their synthesis routes, the optimization of their properties through chemical composition modification, and their potential applications.
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KEYWORDS
perovskite | phase transition | piezoelectric ceramics | Morphotropic Phase Boundary
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Lead-free piezoelectric ceramics
Bibliography
Bibliography
Standards and norms
- Piezoelectric properties of ceramic materials and components – Part 1: Terms and definitions - NF EN 50324-1 - 12-02
- Piezoelectric properties of ceramic materials and components – Part 2: Measurement methods – Low power - NF EN 50324-2 - 12-02
- Piezoelectric properties of ceramic materials and components – Part 3: Measurement methods – High power - NF EN 50324-3 - 12-02
Directory
Non-exhaustive list of French academic and industrial laboratories working on the study and development of lead-free piezoelectric ceramics.
Ceramics Research Institute, Limoges https://www.ircer.fr/
GREMAN Laboratory, Tours https://greman.univ-tours.fr/
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