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http://dx.doi.org/10.12989/sss.2020.26.1.077

Static stability analysis of smart nonlocal thermo-piezo-magnetic plates via a quasi-3D formulation  

Fenjan, Raad M. (Al-Mustansiriah University, Engineering Collage)
Ahmed, Ridha A. (Al-Mustansiriah University, Engineering Collage)
Faleh, Nadhim M. (Al-Mustansiriah University, Engineering Collage)
Hani, Fatima Masood (Ministry of Construction and Housing)
Publication Information
Smart Structures and Systems / v.26, no.1, 2020 , pp. 77-87 More about this Journal
Abstract
By employing a quasi-3D plate formulation, the present research studies static stability of magneto-electro-thermo-elastic functional grading (METE-FG) nano-sized plates. Accordingly, influences of shear deformations as well as thickness stretching have been incorporated. The gradation of piezo-magnetic and elastic properties of the nano-sized plate have been described based on power-law functions. The size-dependent formulation for the nano-sized plate is provided in the context of nonlocal elasticity theory. The governing equations are established with the usage of Hamilton's rule and then analytically solved for diverse magnetic-electric intensities. Obtained findings demonstrate that buckling behavior of considered nanoplate relies on the variation of material exponent, electro-magnetic field, nonlocal coefficient and boundary conditions.
Keywords
piezo-magnetic nanoplate; functional graded materials; thermal environments; buckling; quasi-3D plate theory; nonlocal theory;
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