Carry-over Factors of Levy-type rectangular FGM plates subjected to edge moment or deflection

The purpose of this study is to carry out the rotational stiffness, shear stiffness, and carry-over-factors (COFs) of Levy-type rectangular FGM plates on the basis of the classical elastic theory. Three fundamental problems of Levy-type rectangular FGM plates subjected to edge moment or vertical def...

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Bibliographic Details
Published in:Mechanics of materials 2022-10, Vol.173, p.104413, Article 104413
Main Authors: Chung, Yen-Ling, Gan, Yi-Ping
Format: Article
Language:English
Subjects:
Carry-over factor
FGM plate
Fourier series expansion
Fundamental solution
S-FGM-Coated plates
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Summary:The purpose of this study is to carry out the rotational stiffness, shear stiffness, and carry-over-factors (COFs) of Levy-type rectangular FGM plates on the basis of the classical elastic theory. Three fundamental problems of Levy-type rectangular FGM plates subjected to edge moment or vertical deflection are under consideration. The Poisson's ratios of these FGM plates are assumed to be constant, while their Young's moduli vary continuously throughout the thickness direction with the volume fractions of the constituents obeying sigmoid functions. By using the technique of one-direction Fourier series expanding, the general solutions of FGM rectangular plate with Levy boundary conditions are derived. Then the COFs of these Levy-type fundamental problems are obtained. In addition, by superposing the fundamental solutions, the series-solutions of the S-FGM and S-FGM-coated plates subjected to constant edge moment are also developed and investigated. Results reveal that the obtained COFs of three fundamental problems are independent of Young's modulus, but depend on the aspect ratio. And, although the COFs, rotational and shear stiffnesses of the fundamental problems remain constant as the aspect ratio is small than one, the COFs sharply decay to zero while the rotational and shear stiffnesses rapidly increase as the aspect ratio is approximately greater than one. This event is attributed to that the simply-supported edges significantly affect the COFs for big aspect ratio. Notably, the obtained COFs and stiffnesses reported for the first time are applicable to the technique of moment distribution in solving the continuous FGM plates, and the obtained stiffnesses can serve as entries of the stiffness matrix of FGM plates in numerical calculation. •The COFs and stiffnesses of FGM plates are reported for the first time.•The obtained COFs and stiffnesses are applicable to solve continuous FGM plates.•Increasing aspect ratio decreases the COFs rapidly.•The stiffnesses increase rapidly as the aspect ratio greater than one, especially for high steep of material gradation.
ISSN:0167-6636
1872-7743
DOI:10.1016/j.mechmat.2022.104413