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#7255. Size-dependent vibration of single-crystalline rectangular nanoplates with cubic anisotropy considering surface stress and nonlocal elasticity effects

October 2026	publication date
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4 total number of authors per manuscript	0 $

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Journal’s subject area:

Engineering

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Abstract:
The presented paper investigates size-dependent vibration of single-crystalline rectangular nanoplates with cubic anisotropy based on combined surface stress and nonlocal elasticity effects. For this, the fundamental equations are derived with a discussion about the anisotropy formulations. The convergence and stability of the results are verified to obtain a suitable number of grid points. The results indicate that size scale parameters have different vibration effects at different material orientations and boundary conditions.
Keywords:
Anisotropy; Nonlocal elasticity; Rectangular nanoplates; Size-dependent; Surface stress; Vibration

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