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W4200605110 endingPage "11787" @default.
W4200605110 startingPage "11787" @default.
W4200605110 abstract "In this study, a sandwich piezoelectric nano-energy harvester model under compressive axial loading with a core layer fabricated of functionally graded (FG) porous material is presented based on the nonlocal strain gradient theory (NSGT). The von Karman type geometric nonlinearity and the axial loading were considered. The electromechanical governing equations were obtained using Hamilton’s principle. The nonlinear vibration frequencies, root mean square (RMS) voltage output and static buckling were obtained using the Galerkin method. The effects of different types of porous distribution, porosity coefficients, length scale parameters, nonlocal parameters, flexoelectricity, excitation frequencies, lumped mass and axial loads on the natural frequency and voltage output of nanobeams were investigated. Results show that the porous distributions, porosity coefficient of porous materials, the excitation frequencies and the axial load have a large effect on the natural frequency and voltage output of the sandwiched piezoelectric nanobeams. When the NSGT is considered, the critical buckling load depends on the values of the nonlocal parameters and strain gradient constants. In addition, the electromechanical conversion efficiency of the post-buckling process is significantly higher than that of the pre-buckling process. The flexoelectric effect can significantly increase the RMS voltage output of the energy harvester." @default.
W4200605110 created "2021-12-31" @default.
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W4200605110 date "2021-12-11" @default.
W4200605110 modified "2023-10-05" @default.
W4200605110 title "Nonlinear Analyses of Porous Functionally Graded Sandwich Piezoelectric Nano-Energy Harvesters under Compressive Axial Loading" @default.
W4200605110 cites W1465633523 @default.
W4200605110 cites W1520698422 @default.
W4200605110 cites W1545768456 @default.
W4200605110 cites W1894293295 @default.
W4200605110 cites W1966330485 @default.
W4200605110 cites W1971717868 @default.
W4200605110 cites W1974439116 @default.
W4200605110 cites W1975160061 @default.
W4200605110 cites W1978336383 @default.
W4200605110 cites W1978470638 @default.
W4200605110 cites W1995245065 @default.
W4200605110 cites W1999544762 @default.
W4200605110 cites W2006061241 @default.
W4200605110 cites W2007854852 @default.
W4200605110 cites W2010412456 @default.
W4200605110 cites W2024084742 @default.
W4200605110 cites W2024484701 @default.
W4200605110 cites W2035552754 @default.
W4200605110 cites W2043020575 @default.
W4200605110 cites W2043348892 @default.
W4200605110 cites W2043935462 @default.
W4200605110 cites W2050855434 @default.
W4200605110 cites W2051617107 @default.
W4200605110 cites W2068254598 @default.
W4200605110 cites W2069344959 @default.
W4200605110 cites W2074854921 @default.
W4200605110 cites W2078233671 @default.
W4200605110 cites W2082949672 @default.
W4200605110 cites W2084113519 @default.
W4200605110 cites W2087525349 @default.
W4200605110 cites W2088542309 @default.
W4200605110 cites W2091458120 @default.
W4200605110 cites W2091727318 @default.
W4200605110 cites W2110434860 @default.
W4200605110 cites W2130149335 @default.
W4200605110 cites W2157668189 @default.
W4200605110 cites W2211445550 @default.
W4200605110 cites W2270525418 @default.
W4200605110 cites W2341544837 @default.
W4200605110 cites W2417270700 @default.
W4200605110 cites W2418721418 @default.
W4200605110 cites W2516657863 @default.
W4200605110 cites W2598413598 @default.
W4200605110 cites W2724901461 @default.
W4200605110 cites W2731622532 @default.
W4200605110 cites W2760677107 @default.
W4200605110 cites W2789726182 @default.
W4200605110 cites W2790453615 @default.
W4200605110 cites W2793074971 @default.
W4200605110 cites W2797537035 @default.
W4200605110 cites W2891864293 @default.
W4200605110 cites W2897390573 @default.
W4200605110 cites W2900574716 @default.
W4200605110 cites W2908879350 @default.
W4200605110 cites W2942004552 @default.
W4200605110 cites W2947183996 @default.
W4200605110 cites W2947892655 @default.
W4200605110 cites W2948350971 @default.
W4200605110 cites W2970189590 @default.
W4200605110 cites W2977556361 @default.
W4200605110 cites W2987755385 @default.
W4200605110 cites W2990040414 @default.
W4200605110 cites W2998195625 @default.
W4200605110 cites W3001905661 @default.
W4200605110 cites W3021918846 @default.
W4200605110 cites W3030434272 @default.
W4200605110 cites W3081697103 @default.
W4200605110 cites W3081866223 @default.
W4200605110 cites W3097056623 @default.
W4200605110 cites W3097967651 @default.
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W4200605110 doi "https://doi.org/10.3390/app112411787" @default.
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