BEM analysis of a piezoelectric structural health monitoring system for delamination detection

Alberto Milazzo, Calogero Orlando, Andrea Alaimo

Risultato della ricerca: Chapter

Abstract

In the present work a piezoelectric based structural health monitoring (SHM) system is analyzed with the aim of assessing the ability of the piezoelectric patch to detect both edge and embedded delaminations proper of flange-skin composite laminated structures. he boundary element model is developed for piezoelectric solids and is implemented by taking advantage of the multidomain technique to model laminated and cracked configurations. A non-linear spring model interface is then implemented in conjunction with an iterative procedure allowing for the simulation of the finite stiffness of the bonding layers as well as of the non-penetration condition of the delamination surfaces. he dynamic behavior of the damaged structures and of the bonded piezoelectric patch is modeled by means of the dual reciprocity approach. To fully characterize the structure response the fracture mechanics behavior is studied in terms of energy release rate G and mode-mix phase angle Ψ. Finally, a damage index based on the electrical current output of the SHM system is introduced as an effective identification parameter of the flange-skin delamination occurrence. © (2014) Trans Tech Publications.
Lingua originaleEnglish
Titolo della pubblicazione ospiteAdvances in Fracture and Damage Mechanics XII
Pagine401-404
Numero di pagine4
Volume2014
Stato di pubblicazionePublished - 2014

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Structural health monitoring
Delamination
Flanges
Skin
Insulator Elements
Energy release rate
Laminated composites
Fracture mechanics
Identification (control systems)
Stiffness

All Science Journal Classification (ASJC) codes

  • Materials Science(all)
  • Mechanical Engineering
  • Mechanics of Materials

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Milazzo, A., Orlando, C., & Alaimo, A. (2014). BEM analysis of a piezoelectric structural health monitoring system for delamination detection. In Advances in Fracture and Damage Mechanics XII (Vol. 2014, pagg. 401-404)

BEM analysis of a piezoelectric structural health monitoring system for delamination detection. / Milazzo, Alberto; Orlando, Calogero; Alaimo, Andrea.

Advances in Fracture and Damage Mechanics XII. Vol. 2014 2014. pag. 401-404.

Risultato della ricerca: Chapter

Milazzo, A, Orlando, C & Alaimo, A 2014, BEM analysis of a piezoelectric structural health monitoring system for delamination detection. in Advances in Fracture and Damage Mechanics XII. vol. 2014, pagg. 401-404.
Milazzo A, Orlando C, Alaimo A. BEM analysis of a piezoelectric structural health monitoring system for delamination detection. In Advances in Fracture and Damage Mechanics XII. Vol. 2014. 2014. pag. 401-404
Milazzo, Alberto ; Orlando, Calogero ; Alaimo, Andrea. / BEM analysis of a piezoelectric structural health monitoring system for delamination detection. Advances in Fracture and Damage Mechanics XII. Vol. 2014 2014. pagg. 401-404
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AB - In the present work a piezoelectric based structural health monitoring (SHM) system is analyzed with the aim of assessing the ability of the piezoelectric patch to detect both edge and embedded delaminations proper of flange-skin composite laminated structures. he boundary element model is developed for piezoelectric solids and is implemented by taking advantage of the multidomain technique to model laminated and cracked configurations. A non-linear spring model interface is then implemented in conjunction with an iterative procedure allowing for the simulation of the finite stiffness of the bonding layers as well as of the non-penetration condition of the delamination surfaces. he dynamic behavior of the damaged structures and of the bonded piezoelectric patch is modeled by means of the dual reciprocity approach. To fully characterize the structure response the fracture mechanics behavior is studied in terms of energy release rate G and mode-mix phase angle Ψ. Finally, a damage index based on the electrical current output of the SHM system is introduced as an effective identification parameter of the flange-skin delamination occurrence. © (2014) Trans Tech Publications.

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