Publication detail

Optimization of design parameters of fracture resistant piezoelectric vibration energy harvester

MAJER, Z. ŠEVEČEK, O. MACHŮ, Z. ŠTEGNEROVÁ, K. KOTOUL, M.

Original Title

Optimization of design parameters of fracture resistant piezoelectric vibration energy harvester

Type

conference paper

Language

English

Original Abstract

This paper is focused on an analysis of a multilayer ceramic-based piezoelectric vibration energy harvester, which could be excited by ambient vibrations or external forces and thus provide a useful source of electricity for modern electronics. The proposed multilayer concept of the energy harvester enables introduction of tensile / compressive residual stresses inside particular layers. These stresses are intended to be used for enhancement of the harvester´s fracture resistance and simultaneously for the improvement of the energy gain upon its operation. A crack arrest, by means of compressive residual stresses (in the outer “non-piezo” layer), will be utilized to this end. Primarily, the extended classical laminate theory (taking into account the piezoelectric characteristics of selected layers) will be used to define various designs of particular layers with various levels of residual stresses inside them. The weight function method is subsequently employed to select a design, which is most resistant to propagation of preexisting cracks. Selected laminate configurations are verified by means of FE simulations. Such analysis is essential for development of new energy harvesting systems formed of new smart materials and structures, which could be integrated in future development processes.

Keywords

Crack propagation, Energy harvesting, Finite element method, Fracture toughness, Laminates, Multilayers, Piezoelectricity, Residual stresses

Authors

MAJER, Z.; ŠEVEČEK, O.; MACHŮ, Z.; ŠTEGNEROVÁ, K.; KOTOUL, M.

Released

1. 8. 2018

Publisher

Trans Tech Publications Ltd

ISBN

9783035713503

Book

Key Engineering Materials

Edition

774

ISBN

1013-9826

Periodical

Key Engineering Materials (print)

Year of study

774

State

Swiss Confederation

Pages from

416

Pages to

422

Pages count

7

URL

BibTex

@inproceedings{BUT151847,
  author="Zdeněk {Majer} and Oldřich {Ševeček} and Zdeněk {Machů} and Kateřina {Štegnerová} and Michal {Kotoul}",
  title="Optimization of design parameters of fracture resistant piezoelectric vibration energy harvester",
  booktitle="Key Engineering Materials",
  year="2018",
  series="774",
  journal="Key Engineering Materials (print)",
  volume="774",
  pages="416--422",
  publisher="Trans Tech Publications Ltd",
  doi="10.4028/www.scientific.net/KEM.774.416",
  isbn="9783035713503",
  issn="1013-9826",
  url="https://www.scientific.net/KEM.774.416"
}