Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells

Milić, Predrag; Marinković, Dragan; Klinge, Sandra; Ćojbašić, Žarko

doi:10.17559/TV-20230128000280

Technical gazette, Vol. 30 No. 2, 2023.

Original scientific paper

https://doi.org/10.17559/TV-20230128000280

Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells

Predrag Milić ; University of Niš, Faculty of Mechanical Engineering in Niš, Aleksandra Medvedeva 14, 18000 Niš, Serbia
Dragan Marinković orcid.org/0000-0002-3583-9434 ; University of Niš, Faculty of Mechanical Engineering in Niš, Aleksandra Medvedeva 14, 18000 Niš, Serbia; Lecturer and Research Assistant, Department of Structural Analysis, Berlin Institute of Technology, Strasse des 17, Juni 135, 10623 Berlin, Germany
Sandra Klinge ; Department of Structural Analysis, Berlin Institute of Technology, Strasse des 17, Juni 135, 10623 Berlin, Germany
Žarko Ćojbašić ; University of Niš, Faculty of Mechanical Engineering in Niš, Aleksandra Medvedeva 14, 18000 Niš, Serbia

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APA 6th Edition

Milić, P., Marinković, D., Klinge, S. & Ćojbašić, Ž. (2023). Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells. Tehnički vjesnik, 30 (2), 416-425. https://doi.org/10.17559/TV-20230128000280

MLA 8th Edition

Milić, Predrag, et al. "Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells." Tehnički vjesnik, vol. 30, no. 2, 2023, pp. 416-425. https://doi.org/10.17559/TV-20230128000280. Accessed 18 May 2024.

Chicago 17th Edition

Milić, Predrag, Dragan Marinković, Sandra Klinge and Žarko Ćojbašić. "Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells." Tehnički vjesnik 30, no. 2 (2023): 416-425. https://doi.org/10.17559/TV-20230128000280

Harvard

Milić, P., et al. (2023). 'Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells', Tehnički vjesnik, 30(2), pp. 416-425. https://doi.org/10.17559/TV-20230128000280

Vancouver

Milić P, Marinković D, Klinge S, Ćojbašić Ž. Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells. Tehnički vjesnik [Internet]. 2023 [cited 2024 May 18];30(2):416-425. https://doi.org/10.17559/TV-20230128000280

IEEE

P. Milić, D. Marinković, S. Klinge and Ž. Ćojbašić, "Reissner-Mindlin Based Isogeometric Finite Element Formulation for Piezoelectric Active Laminated Shells", Tehnički vjesnik, vol.30, no. 2, pp. 416-425, 2023. [Online]. https://doi.org/10.17559/TV-20230128000280

Abstract

The paper deals with the isogeometric analysis (IGA) of active composite laminates with piezoelectric layers. IGA is a special formulation of the finite element method (FEM) that aims at seamless integration of geometric and finite element modelling. NURBS basis functions are employed to develop isogeometric shell formulation based on the Reissner-Mindlin kinematics. Piezolayers characterized by electro-mechanical coupled field effects enable active behavior of the considered structures. The electric field acts across the thickness of the piezolayers and is coupled to the in-plane strains. In addition to a number of advantages that NURBS modelling provides, defining the surface normal vector at the points of the control polygon, which are generally not located on the surface, creates certain difficulties. A method of determining the surface normal vectors at the points of the control polygon based on the Greville's points is discussed. In order to demonstrate the applicability of the developed formulation, a benchmark case is computed and the results are compared with those obtained by means of classical FEM formulation, which are available in the literature.

Keywords

grevill points; isogeometric analysis; laminated Reissner-Mindlin shell; piezolayer

Hrčak ID:

294338

URI

https://hrcak.srce.hr/294338

Publication date:

26.2.2023.

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Technical gazette, Vol. 30 No. 2, 2023.

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