2011
DOI: 10.1007/s00707-011-0523-x
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Size-dependent effective electroelastic moduli of piezoelectric nanocomposites with interface effect

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Cited by 45 publications
(18 citation statements)
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“…Similarly, in elasticity, the effective elastic moduli of a composite with spring-type interfaces decrease with the increase of the inclusion size, while the effective elastic moduli of a composite with membrane-type interfaces increase with the increase of the inclusion size (Chen et al, 2007;Duan et al, 2005b). For piezoelectricity, the size-dependent effective properties of a composite with the well-known piezoelectric membrane-type and spring-type interface have been reported in literature (Fang et al, 2009;Xiao et al, 2011). In the same way, the overall properties of a composite increase or decrease with the increase of the inclusion size according as piezoelectric membrane-type or spring-type interfaces are involved.…”
Section: Numerical Examplesmentioning
confidence: 88%
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“…Similarly, in elasticity, the effective elastic moduli of a composite with spring-type interfaces decrease with the increase of the inclusion size, while the effective elastic moduli of a composite with membrane-type interfaces increase with the increase of the inclusion size (Chen et al, 2007;Duan et al, 2005b). For piezoelectricity, the size-dependent effective properties of a composite with the well-known piezoelectric membrane-type and spring-type interface have been reported in literature (Fang et al, 2009;Xiao et al, 2011). In the same way, the overall properties of a composite increase or decrease with the increase of the inclusion size according as piezoelectric membrane-type or spring-type interfaces are involved.…”
Section: Numerical Examplesmentioning
confidence: 88%
“…Duan et al (2005a,b), Xiao et al (2011)). As shown in the conduction (Duan and Karihaloo, 2007;Le-Quang et al, 2011), for a composite with Kapitza interfaces, its effective conductivity decreases with the increase of the inclusion size, while for a composites with highly conducting interfaces, its effective conductivity increases with the increase of the inclusion size.…”
Section: Numerical Examplesmentioning
confidence: 90%
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“…The shape of inclusions is also the main factor influencing the electromechanical properties of piezoelectric composites. The shapes of inclusions include circular shape [10,11], elliptical shape [12,13] and arbitrary shape [14].…”
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confidence: 99%