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W956228508 abstract "Piezocomposites are attracting widespread interest since they can offer greater flexibility and better performances in specific applications with respect to traditional piezoelectric wafers. Design of piezocomposites requires accurate homogenisation models for the prediction of the equivalent electro-mechanical properties. In macro-scale models of structures with piezocomposite transducers, these properties are adopted in order to avoid the complexity of the piezocomposite microstructure. In the case of smart structures the accurate modelling of the actuation and the response of the structure is of primary importance. If classical structural finite elements are not sufficiently accurate, higher order or solid elements should be adopted. Thanks to adaptation or mixed-dimensional methods, it is possible to adopt computationally expensive higher order or solid elements only in some sub-domains of the structure. In this work, the modelling of smart structures equipped with thin piezoelectric transducers is considered in a multi-scale framework. Micromechanical homogenisation models are developed and employed for the prediction of the equivalent properties of piezocomposites. A micromechanical model based on the concept of inclusion is proposed to investigate the influence of the shape of the inclusions, of the constituent materials and of the polarisation on the equivalent properties. It has been found that fibre-shaped inclusions should be considered in order to obtain piezocomposites with strong piezoelectric effect and to have at the same time high direction-dependence. The equivalent properties of Macro Fiber Composites are determined via the Asymptotic Homogenisation Method (AHM) with an analytical solution and with a numerical solution via FEM which takes into account the effect of the electrodes. AHM analytical solution is adopted to investigate the effect of the material properties of the matrix on the overall piezocomposite. Results indicate that low values of the Young's modulus and of the Poisson's ratio yield high directional dependence in the piezoelectric properties. A laminated design with anisotropic layers and a piezocomposite layer is investigated via UFM. A configuration with maximum directional dependence in terms of equivalent piezoelectric strain constants is proposed, whereas maximum directional dependence in terms of piezoelectric stress constants is proved to be not achievable with such a design. Hierarchical finite elements for structural analyses based on a Unified Formulation (UF) by Carrera are developed and coupled via the Arlequin method proposed by Ben Dhia. Solid, plate and beam finite elements for mechanical and for piezoelectric problems are presented. Via UF, higher order and piezoelectric elements can be formulated straightforwardly. These elements are combined in variable kinematic solutions in the Arlequin framework. Higher-order elements are adopted locally where the stress field is three-dimensional, whereas the remaining parts of the structure are modelled with computationally cheap lower-order elements. Two electro-mechanical coupling operator for the Arlequin method in the context of piezoelectric analyses are proposed. Results are validated towards monomodel solutions and three-dimensional analytical and numerical reference solutions. Accurate solutions are obtained reducing the computational costs" @default.
W956228508 created "2016-06-24" @default.
W956228508 creator A5034053843 @default.
W956228508 date "2012-01-01" @default.
W956228508 modified "2023-09-26" @default.
W956228508 title "Modelling-based design of anisotropic piezocomposite transducers and multi-domain analysis of smart structures" @default.
W956228508 cites W1032542530 @default.
W956228508 cites W1573186872 @default.
W956228508 cites W1578341403 @default.
W956228508 cites W1794873020 @default.
W956228508 cites W1964057891 @default.
W956228508 cites W1964095645 @default.
W956228508 cites W1966465080 @default.
W956228508 cites W1971446296 @default.
W956228508 cites W1972345406 @default.
W956228508 cites W1973279931 @default.
W956228508 cites W1974338522 @default.
W956228508 cites W1979602972 @default.
W956228508 cites W1985625692 @default.
W956228508 cites W1989581196 @default.
W956228508 cites W1991289302 @default.
W956228508 cites W1991681441 @default.
W956228508 cites W1997623839 @default.
W956228508 cites W1999258350 @default.
W956228508 cites W2000309712 @default.
W956228508 cites W2001176933 @default.
W956228508 cites W2003239976 @default.
W956228508 cites W2005622718 @default.
W956228508 cites W2005890537 @default.
W956228508 cites W2007332395 @default.
W956228508 cites W2011019069 @default.
W956228508 cites W2011515809 @default.
W956228508 cites W2016542541 @default.
W956228508 cites W2019046140 @default.
W956228508 cites W2020331696 @default.
W956228508 cites W2021748299 @default.
W956228508 cites W2025751034 @default.
W956228508 cites W2027823729 @default.
W956228508 cites W2033065651 @default.
W956228508 cites W2035418108 @default.
W956228508 cites W2037482218 @default.
W956228508 cites W2040344585 @default.
W956228508 cites W2041018522 @default.
W956228508 cites W2043100548 @default.
W956228508 cites W2044799740 @default.
W956228508 cites W2045541928 @default.
W956228508 cites W2046598747 @default.
W956228508 cites W2048414060 @default.
W956228508 cites W2051251118 @default.
W956228508 cites W2052853244 @default.
W956228508 cites W2059405869 @default.
W956228508 cites W2060097428 @default.
W956228508 cites W2062963709 @default.
W956228508 cites W2065682280 @default.
W956228508 cites W2067701863 @default.
W956228508 cites W2069450439 @default.
W956228508 cites W2070951054 @default.
W956228508 cites W2072176741 @default.
W956228508 cites W2072882852 @default.
W956228508 cites W2072954894 @default.
W956228508 cites W2076606934 @default.
W956228508 cites W2077421599 @default.
W956228508 cites W2077924899 @default.
W956228508 cites W2080453605 @default.
W956228508 cites W2096105657 @default.
W956228508 cites W2098974187 @default.
W956228508 cites W2101465974 @default.
W956228508 cites W2102666202 @default.
W956228508 cites W2118892887 @default.
W956228508 cites W2120475457 @default.
W956228508 cites W2120756094 @default.
W956228508 cites W2126343587 @default.
W956228508 cites W2126479365 @default.
W956228508 cites W2129714860 @default.
W956228508 cites W2131790253 @default.
W956228508 cites W2134735488 @default.
W956228508 cites W2135497847 @default.
W956228508 cites W2143262496 @default.
W956228508 cites W2157700138 @default.
W956228508 cites W2161767479 @default.
W956228508 cites W2163262826 @default.
W956228508 cites W2261621682 @default.
W956228508 cites W2266285536 @default.
W956228508 cites W2293887490 @default.
W956228508 cites W2333301008 @default.
W956228508 cites W2590896488 @default.
W956228508 cites W2889004626 @default.
W956228508 cites W3023870838 @default.
W956228508 cites W63412434 @default.
W956228508 cites W2254994886 @default.
W956228508 cites W2626856214 @default.
W956228508 doi "https://doi.org/10.6092/polito/porto/2496918" @default.
W956228508 hasPublicationYear "2012" @default.
W956228508 type Work @default.
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W956228508 crossrefType "dissertation" @default.
W956228508 hasAuthorship W956228508A5034053843 @default.
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