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Bending and stress responses of the hybrid axisymmetric system via state-space method and 3D-elasticity theory

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Abstract

This research presents bending responses of hybrid laminated nanocomposite reinforced axisymmetric circular/annular plates (HLNRACP/ HLNRAAP) within the framework of non-polynomial under mechanical loading and various type of initially stresses via the three-dimensional elasticity theory. The current structure is on the Pasternak type of elastic foundation and torsional interaction. The state-space approach and differential quadrature method (SS-DQM) are studied to present the bending characteristics of the current structure by considering various boundary conditions. To predict the material properties of the bulk, the role of mixture and Halpin–Tsai equations are studied. For modeling the circular plate, a singular point is studied. Finally, a parametric study investigates the impacts of various types of distribution of laminated layers, stacking sequence on the stress/strain information of the HLNRACP/ HLNRAAP. Results reveal that the system's static stability and bending behavior improve due to increasing the value of Winkler and Pasternak factors, and the stress distribution becomes more uniform.

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Authors and Affiliations

  1. College of Electric Engineering, Naval University of Engineering, Wuhan, 430033, China

    Yinan Zhao & Jinwu Zhuang

  2. Department of Electrical Engineering, Faculty of Engineering and Technology, Imam Khomeini International University, 34149-16818, Qazvin, Iran

    Zohre Moradi & Mohsen Davoudi

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  1. Yinan Zhao
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  2. Zohre Moradi
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Zhao, Y., Moradi, Z., Davoudi, M. et al. Bending and stress responses of the hybrid axisymmetric system via state-space method and 3D-elasticity theory. Engineering with Computers 38 (Suppl 2), 939–961 (2022). https://doi.org/10.1007/s00366-020-01242-1

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