Affiliation:
1. Université Mustapha Stambouli
2. University of Biskra
3. University of Versailles Saint-Quentin
4. Yonsei University
Abstract
The bending response of two-dimensional (2D) functionally graded (FG) nonlocal strain gradient nanobeams is explored analytically in this work. The longitudinal and transverse orientations vary in material gradation and material characteristics. Kinematic relations of nanobeams are proposed according to hybrid hyperbolic-parabolic functions. The virtual work principle obtains the equilibrium equations, which are then solved using Navier's method. The accuracy and dependability of the suggested analytical model are demonstrated by comparing the results to predictions made in the literature. A thorough parametric study also determines how sensitive the material distribution, the nonlocal length-scale parameter, the strain gradient microstructure-scale parameter, and the geometry are to how the bending response and stresses of 2D FG nanobeams. The results obtained provide benchmark results, which can be used in the design of composite structures.
Publisher
Trans Tech Publications, Ltd.
Reference31 articles.
1. Shahmohammadi, Mohammad Amin, Mojtaba Azhari, and Mohammad Mehdi Saadatpour. "Free vibration analysis of sandwich FGM shells using isogeometric B-spline finite strip method." Steel and Composite Structures 34.3 (2020): 361-76
2. Si, Hua, et al. "Vibration behavior of functionally graded sandwich beam with porous core and nanocomposite layers." Steel and Composite Structures, An International Journal 36.1 (2020): 1-16
3. Liang, Di, et al. "Vibration behavior of trapezoidal sandwich plate with functionally graded-porous core and graphene platelet-reinforced layers." Steel and Composite Structures, An International Journal 36.1 (2020): 47-62
4. Karakoti, Abhilash, Shashank Pandey, and Vishesh Ranjan Kar. "Dynamic responses analysis of P and S-FGM sandwich cylindrical shell panels using a new layerwise method." Structural Engineering and Mechanics 80.4 (2021): 417-432
5. Taskin, Vedat, and Pinar Aydan Demirhan. "Static analysis of simply supported porous sandwich plates." Structural Engineering and Mechanics, An Int'l Journal 77.4 (2021): 549-557