Dielectric, piezoelectric and electromechanical optimization properties of polyurethane/lead zirconate titanate composites for mechanical energy harvesting applications / Zakaria Malki in MATERIAUX & TECHNIQUES, Vol. 110, N° 5 (2022)  

[article]  inMATERIAUX & TECHNIQUES > Vol. 110, N° 5 (2022) . - 11 p. Titre : Dielectric, piezoelectric and electromechanical optimization properties of polyurethane/lead zirconate titanate composites for mechanical energy harvesting applications Type de document : texte imprimé Auteurs : Zakaria Malki, Auteur ; Chouaib Ennawaoui, Auteur ; Abdelowahed Hajjaji, Auteur ; Mohamed El Jouad, Auteur ; El Mehdi Laadissi, Auteur ; Loualid El Mehdi, Auteur ; Yahia Boughaleb, Auteur Année de publication : 2022 Article en page(s) : 11 p. Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Caractérisation Composites Composites -- Propriétés électriques Composites -- Propriétés mécaniques Energie -- Récupération Matériaux céramiques Matériaux piézoélectriques Polyuréthanes Titanate de zirconate de plomb Index. décimale : 668.4 Plastiques, vinyles Résumé : Lead zirconate titanate (PZT) is the most common piezoelectric ceramic and exhibits excellent electromechanical conversion properties. But in order to make it more adaptable for energy harvesting applications, we resort to ceramic/polymer composites because of their excellent and tailorable properties. The advantages of this type of composite are high coupling factors due to PZT, mechanical flexibility (PU) and wide bandwidth. In this work, we studied the mechanical and electrical characteristics of this composite, as well as their behavior as a function of the percentage of PZT (by volume). Forth more, we followed the impact of this parameter on the collected energies, as well as others like frequency and resistance. The harvested power significantly increases with increasing PZT, achieving a power value up to 13.4 and 420 nW for PU/PZT 60% and PU/PZT 70%, respectively. In conclusion, composite piezoelectric films have great potential from an energy density viewpoint and could represent interesting candidates for energy harvesting applications. Note de contenu : - MATERIALS AND METHODS - MORPHOLOGICAL AND MECHANICAL CHARACTERIZATIONS : Mechanical characterization - Electrical characterization - EXPERIMENTAL HARVESTING ENERGY TESTS : Potential difference as a function of the percentage of the PZT - Potential difference as a function of the frequency - The harvested power as a function of the resistance - Table 1 : PZT P188 properties - Table 2 : Piezoelectric constant d33 for different fraction of PU/PZT composites Référence de l'article : 501 DOI : https://doi.org/10.1051/mattech/2022033 En ligne : https://www.mattech-journal.org/articles/mattech/pdf/2022/05/mt220002.pdf Format de la ressource électronique : Pdf Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=38532 [article]

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