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Structural Engineering and Mechanics Volume 91, Number 4, August25 2024 , pages 383-391 DOI: https://doi.org/10.12989/sem.2024.91.4.383 |
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Nonlinear thermal post-buckling behavior of graphene platelets reinforced metal foams conical shells |
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Yin-Ping Li, Lei-Lei Gan and Gui-Lin She
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| Abstract | ||
| Conical shell is a common engineering structure, which is widely used in machinery, civil and construction fields. Most of them are usually exposed to external environments, temperature is an important factor affecting its performance. If the external temperature is too high, the deformation of the conical shell will occur, leading to a decrease in stability. Therefore, studying the thermal-post buckling behavior of conical shells is of great significance. This article takes graphene platelets reinforced metal foams (GPLRMF) conical shells as the research object, and uses high-order shear deformation theory (HSDT) to study the thermal post-buckling behaviors. Based on general variational principle, the governing equation of a GPLRMF conical shell is deduced, and discretized and solved by Galerkin method to obtain the critical buckling temperature and thermal post-buckling response of conical shells under various influencing factors. Finally, the effects of cone angles, GPLs distribution types, GPLs mass fraction, porosity distribution types and porosity coefficient on the thermal post-buckling behaviors of conical shells are analyzed in detail. The results show that the cone angle has a significant impact on the nonlinear thermal stability of the conical shells. | ||
| Key Words | ||
| conical shells; Galerkin method; graphene platelets; metal foams; thermal post-buckling | ||
| Address | ||
| Yin-Ping Li, Lei-Lei Gan and Gui-Lin She: College of Mechanical and Vehicle Engineering, Chongqing University, Chongqing 400044, China | ||