| タイトル | Analytic and Computational Perspectives of Multi-Scale Theory for Homogeneous, Laminated Composite, and Sandwich Beams and Plates |
| 本文(外部サイト) | http://hdl.handle.net/2060/20120009039 |
| 著者(英) | Di Sciuva, Marco; Tessler, Alexander; Versino, Daniele; Gherlone, Marco |
| 著者所属(英) | NASA Langley Research Center |
| 発行日 | 2012-05-01 |
| 言語 | eng |
| 内容記述 | This paper reviews the theoretical foundation and computational mechanics aspects of the recently developed shear-deformation theory, called the Refined Zigzag Theory (RZT). The theory is based on a multi-scale formalism in which an equivalent single-layer plate theory is refined with a robust set of zigzag local layer displacements that are free of the usual deficiencies found in common plate theories with zigzag kinematics. In the RZT, first-order shear-deformation plate theory is used as the equivalent single-layer plate theory, which represents the overall response characteristics. Local piecewise-linear zigzag displacements are used to provide corrections to these overall response characteristics that are associated with the plate heterogeneity and the relative stiffnesses of the layers. The theory does not rely on shear correction factors and is equally accurate for homogeneous, laminated composite, and sandwich beams and plates. Regardless of the number of material layers, the theory maintains only seven kinematic unknowns that describe the membrane, bending, and transverse shear plate-deformation modes. Derived from the virtual work principle, RZT is well-suited for developing computationally efficient, C0-continuous finite elements; formulations of several RZT-based elements are highlighted. The theory and its finite elements provide a unified and reliable computational platform for the analysis and design of high-performance load-bearing aerospace structures. |
| NASA分類 | Structural Mechanics |
| レポートNO | NASA/TP-2012-217573
L-20141
NF1676L-14627 |
| 権利 | Copyright, Distribution as joint owner in the copyright |
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