Nonlinear thermal stability of functionally graded spherical shells with CNT reinforcement using GDQ and von Kármán nonlinearity.

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Title: Nonlinear thermal stability of functionally graded spherical shells with CNT reinforcement using GDQ and von Kármán nonlinearity.
Authors: Bagheri, H.1 (AUTHOR) Hamed_Bagheri@aut.ac.ir
Source: Acta Mechanica. Mar2026, Vol. 237 Issue 3, p1011-1035. 25p.
Subjects: Thermal stability, Spherical shells (Engineering), Functionally gradient materials, Carbon nanotubes, Differential quadrature method, Shear (Mechanics)
Abstract: This research investigates the nonlinear thermal buckling behavior of spherical shells composed of functionally graded carbon nanotube-reinforced composites (FG-CNTRCs). The study models the through-thickness CNT distribution as either uniform or functionally graded. The governing equations are formulated using first-order shear deformation theory (FSDT), incorporating Sanders' kinematics and von Kármán-type geometric nonlinearity. Temperature-dependent material properties further introduce material nonlinearity. Thermally induced prebuckling stresses are obtained via linear bending analysis. Stability equations are derived based on the adjacent equilibrium criterion to detect bifurcation points and are discretized using the generalized differential quadrature (GDQ) method in the meridional direction, with Fourier expansion in the circumferential direction. The resulting nonlinear eigenvalue problem is solved iteratively to determine the critical buckling temperature and corresponding mode shape. Parametric studies reveal the significant influence of geometric and material nonlinearities, as well as CNT distribution patterns and boundary conditions, on the thermal stability of FG-CNTRC spherical shells. [ABSTRACT FROM AUTHOR]
Copyright of Acta Mechanica is the property of Springer Nature and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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  Data: Nonlinear thermal stability of functionally graded spherical shells with CNT reinforcement using GDQ and von Kármán nonlinearity.
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  Data: <searchLink fieldCode="JN" term="%22Acta+Mechanica%22">Acta Mechanica</searchLink>. Mar2026, Vol. 237 Issue 3, p1011-1035. 25p.
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  Data: <searchLink fieldCode="DE" term="%22Thermal+stability%22">Thermal stability</searchLink><br /><searchLink fieldCode="DE" term="%22Spherical+shells+%28Engineering%29%22">Spherical shells (Engineering)</searchLink><br /><searchLink fieldCode="DE" term="%22Functionally+gradient+materials%22">Functionally gradient materials</searchLink><br /><searchLink fieldCode="DE" term="%22Carbon+nanotubes%22">Carbon nanotubes</searchLink><br /><searchLink fieldCode="DE" term="%22Differential+quadrature+method%22">Differential quadrature method</searchLink><br /><searchLink fieldCode="DE" term="%22Shear+%28Mechanics%29%22">Shear (Mechanics)</searchLink>
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  Data: This research investigates the nonlinear thermal buckling behavior of spherical shells composed of functionally graded carbon nanotube-reinforced composites (FG-CNTRCs). The study models the through-thickness CNT distribution as either uniform or functionally graded. The governing equations are formulated using first-order shear deformation theory (FSDT), incorporating Sanders' kinematics and von Kármán-type geometric nonlinearity. Temperature-dependent material properties further introduce material nonlinearity. Thermally induced prebuckling stresses are obtained via linear bending analysis. Stability equations are derived based on the adjacent equilibrium criterion to detect bifurcation points and are discretized using the generalized differential quadrature (GDQ) method in the meridional direction, with Fourier expansion in the circumferential direction. The resulting nonlinear eigenvalue problem is solved iteratively to determine the critical buckling temperature and corresponding mode shape. Parametric studies reveal the significant influence of geometric and material nonlinearities, as well as CNT distribution patterns and boundary conditions, on the thermal stability of FG-CNTRC spherical shells. [ABSTRACT FROM AUTHOR]
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  Data: <i>Copyright of Acta Mechanica is the property of Springer Nature and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract.</i> (Copyright applies to all Abstracts.)
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      – Type: doi
        Value: 10.1007/s00707-025-04556-7
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      – Code: eng
        Text: English
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        PageCount: 25
        StartPage: 1011
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      – SubjectFull: Thermal stability
        Type: general
      – SubjectFull: Spherical shells (Engineering)
        Type: general
      – SubjectFull: Functionally gradient materials
        Type: general
      – SubjectFull: Carbon nanotubes
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      – SubjectFull: Differential quadrature method
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      – SubjectFull: Shear (Mechanics)
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      – TitleFull: Nonlinear thermal stability of functionally graded spherical shells with CNT reinforcement using GDQ and von Kármán nonlinearity.
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              Text: Mar2026
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              Y: 2026
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