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W2895958006 abstract "The well-known three-dimensional elasticity theory represents the most comprehensive approach to analyze the structural behavior of doubly-curved shells. However, this approach could be extremely burdensome in terms of calculation. Consequently, two-dimensional models are introduced to reduce the computations to obtain the solution. Among them, the Classical Shell Theory (CST) and the First-order Shear Deformation Theory (FSDT) are the most exploited approaches due to their simplicity. Nevertheless, their inadequacy could be evident if innovative and advanced mechanical constituents are considered. For this purpose, more refined approaches are developed. These models are known as Higher-order Structural Theories (HSDTs). This thesis aims to present a higher-order formulation able to model accurately the mechanical behavior of doubly-curved shells made of innovative and advanced materials. It is known that a closed-form solution cannot be obtained for these mathematical models. In other words, the governing equations cannot be solved analytically. Thus, a numerical method must be used to get an approximate solution. In general, two formulations of the same system of governing equations can be developed, which are the strong and weak formulations, respectively. If the strong formulation is solved, a numerical tool capable to approximate derivatives is required, since these equations are directly changed into a discrete system. On the other hand, a numerical approximation of integrals is needed when an equivalent integral formulation of lower order is solved, as in the case of the weak form. Therefore, two different numerical methods can be used to obtain the solution of these formulations. The Differential Quadrature (DQ) and Integral Quadrature (IQ) methods are discussed in this thesis. The accuracy, stability and reliability of the present formulations, as well as their superiority with respect to commercial Finite Element codes, are proven by a set of numerical analyses. An excellent agreement with the exact solutions is observed." @default.
W2895958006 created "2018-10-26" @default.
W2895958006 creator A5009026749 @default.
W2895958006 date "2018-05-10" @default.
W2895958006 modified "2023-09-27" @default.
W2895958006 title "Higher-order Strong and Weak Formulations for Arbitrarily Shaped Doubly-Curved Shells Made of Advanced Materials" @default.
W2895958006 doi "https://doi.org/10.6092/unibo/amsdottorato/8447" @default.
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