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Smart Science Volume 10, 2022 - Issue 4
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Research Article

Nonlinear static analysis of CNT/nanoclay particles reinforced polymer matrix composite plate using secant function based shear deformation theory

Nand Jee KanuDepartment of Mechanical Engineering, S. V. National Institute of Technology, Surat, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3919-5098
ORCID Icon &
Achchhe LalDepartment of Mechanical Engineering, S. V. National Institute of Technology, Surat, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-0259-3490
ORCID Icon
Pages 301-312 | Received 07 Jan 2022, Accepted 12 Apr 2022, Published online: 22 Apr 2022
 
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ABSTRACT

The mechanically induced nonlinear statical assessment of the bending response of single-walled carbon nanotubes (CNTs) fibers on nanoclay-particle-reinforced polymer hybrid laminated composite plate is explored under static loading conditions. A numerical approach is used to find the mechanical properties of CNT-reinforced hybrid laminated plates prepared by involving nanoclay particles in the existing CNT-reinforced epoxy composites. The transverse nonlinear central deflection of a hybrid nanocomposite subjected to mechanical loading based on the Halpin–Tsai approach is evaluated. For the fundamental formulation, a secant-function-based shear deformation theory (SFSDT) and von Kármán nonlinearity are implemented. The influence of CNT/nanoclay particles over the nonlinear bending responses of the hybrid laminated plate under various loading circumstances is studied in detail. A Newton–Raphson method based on Co nonlinear finite element technique is used for the hybrid nanocomposite plate. Furthermore, the impact of different design parameters, such as thicknesses of CNT fibers, different interphases along with aspect ratios, stacking sequences under different boundary conditions, and the types of loads on the nonlinear transverse central deflection of CNT/nanoclay-reinforced polymer hybrid composite plate, has been investigated. The effectiveness of the suggested model has been confirmed by comparing it to deflection reactions found in the literature.

Graphical abstract

Disclosure Statement

No potential conflict of interest was reported by the author(s).

Additional Information

The authors have not been funded in any way to carry out the research activities.

Data Availability

The data that support the findings of the study are available from the corresponding author upon reasonable request.

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