An enhanced inverse finite element method for displacement and stress monitoring of multilayered composite and sandwich structures
Kefal, Adnan and Tessler, Alexander and Oterkus, Erkan (2017) An enhanced inverse finite element method for displacement and stress monitoring of multilayered composite and sandwich structures. Composite Structures, 179. pp. 514-540. ISSN 0263-8223 (https://doi.org/10.1016/j.compstruct.2017.07.078)
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Abstract
The inverse finite element method (iFEM) is an innovative framework for dynamic tracking of full-field structural displacements and stresses in structures that are instrumented with a network of strain sensors. In this study, an improved iFEM formulation is proposed for displacement and stress monitoring of laminated composite and sandwich plates and shells. The formulation includes the kinematics of Refined Zigzag Theory (RZT) as its baseline. The present iFEM methodology minimizes a weighted-least-squares functional that uses the complete set of strain measures of RZT. The main advantage of the current formulation is that highly accurate through-the-thickness distributions of displacements, strains, and stresses are attainable using an element based on simple C0-continuous displacement interpolation functions. Moreover, a relatively small number of strain gauges is required. A three-node inverse-shell element, named i3-RZT, is developed. Two example problems are examined in detail: (1) a simply supported rectangular laminated composite plate and (2) a wedge structure with a hole near one of the clamped ends. The numerical results demonstrate the superior capability and potential applicability of the i3-RZT/iFEM methodology for performing accurate shape and stress sensing of complex composite structures.
ORCID iDs
Kefal, Adnan ORCID: https://orcid.org/0000-0002-4139-999X, Tessler, Alexander and Oterkus, Erkan ORCID: https://orcid.org/0000-0002-4614-7214;-
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Item type: Article ID code: 61709 Dates: DateEvent1 November 2017Published23 July 2017Published Online21 July 2017AcceptedSubjects: Naval Science > Naval architecture. Shipbuilding. Marine engineering Department: Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering Depositing user: Pure Administrator Date deposited: 05 Sep 2017 09:41 Last modified: 17 Dec 2024 07:10 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/61709