Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/9486
Título
Processing Optimization and Toxicological Evaluation of “Lead-Free” Piezoceramics: A KNN-Based Case Study
Autor
Publicado en
Materials. 2021, V. 14, n. 15, 4337
Editorial
MDPI
Fecha de publicación
2021-08-03
ISSN
1996-1944
DOI
10.3390/ma14154337
Résumé
Due to the ever-increasing limitations of the use of lead-based materials, the manufacturing of lead-free piezoceramics with competitive piezoelectric properties and established nontoxicity is considered a priority for the scientific and industrial community. In this work, a lead-free system based on sodium potassium niobate (KNN), opportunely modified with MgNb2O6 (MN), was prepared through a combination of a mechanochemical activation method and air sintering, and its toxicity was evaluated. The effect of the mechanical processing on the microstructure refinement of the processed powders was established by X-ray diffraction and the average crystallite size content of the Nb2O5 species was evaluated. The experimental evidence was rationalized using a phenomenological model which permitted us to obtain the amount of powder processed at each collision and to optimize the activation step of the pre-calcined reagents. This influenced the final density and piezoresponse of the as-sintered pellets, which showed optimal properties compared with other KNN systems. Their toxicological potential was evaluated through exposure experiments to the pulverized KNN-based pellets, employing two widely used human and environmental cellular models. The in vitro assays proved, under the selected conditions, the absence of cytotoxicity of KNN-bases systems here studied.
Palabras clave
Lead-free piezoceramics
Sodium potassium niobate
Processing
Toxicity assays
X-ray diffraction
Mechanochemistry
Materia
Química física
Chemistry, Physical and theoretical
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