Piezoelectric lead-free nanocomposites for sensing applications: the role of CNT reinforced matrices

  1. Buroni, Federico C.
  2. Krishnaswamy, Jagdish A.
  3. Rodríguez-Tembleque, Luis
  4. García-Macías, Enrique
  5. García Sánchez, Felipe
  6. Melnik, Roderick
  7. Sáez, Andrés
Buch:
CMMoST 2019: 5th International Conference on Mechanical Models in Structural Engineering
  1. Baeza de los Santos, F. Javier (coord.)
  2. Gómez Sánchez, Yordhana (coord.)

Verlag: Editorial Club Universitario (ECU)

ISBN: 978-84-17924-58-4 978-84-17924-22-5

Datum der Publikation: 2019

Seiten: 617-630

Kongress: International Conference on Mechanical Models in Structural Engineering (5. 2019. Alicante)

Art: Konferenz-Beitrag

Ziele für nachhaltige Entwicklung

Zusammenfassung

Piezoelectric materials are employed in a wide range of sensing devices. At present, the vast majority of piezoelectric materials used for industrial applications are ceramic and exhibit a high lead content in their composition. However, the development of lead-free piezoelectric materials is attracting great attention in recent years, with the aim of enabling technologies that are environmentally friendly. This paper discusses the computational design of microstructured lead-free polymer-based piezoelectric nanocomposites suitable for production by 3D printing. Results are presented and further analyzed for various configurations using BaTiO3 inclusions in polymeric matrices enriched with the addition of carbon nanotubes (CNT). By incorporating carbon nanotubes in the matrix, we anticipate a quite significant improvement in the piezoelectric response of the composite, through simultaneous hardening of the matrix and improvement in its permittivity.