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| Naji, M. |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Petrov, R. H. | Madrid |
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| Azam, Siraj |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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Tan, Wei
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Publications (6/6 displayed)
- 2024Porosity-dependent stability analysis of bio-inspired cellular nanocomposite shellscitations
- 2023Porosity-dependent stability analysis of bio-inspired cellular nanocomposite shellscitations
- 2018High-fidelity Characterization on Anisotropic Thermal Conductivity of Carbon Nanotube Sheets and on Their Effects of Thermal Enhancement of Nanocomposites
- 2015Predicting the crushing behaviour of composite material using high-fidelity finite element modellingcitations
- 2013In vivo toxicity evaluation of gold-dendrimer composite nanodevices with different surface chargescitations
- 2007Significant effect of size on the in vivo biodistribution of gold composite nanodevices in mouse tumor modelscitations
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article
Porosity-dependent stability analysis of bio-inspired cellular nanocomposite shells
Abstract
<p>This paper presents an innovative numerical model to investigate buckling behaviour of bio-inspired continuously graded porous (CGP) nanocomposite cylindrical shells. It is postulated that the shell subjected to combined lateral pressure and axial compressive load is constructed from metal foams with closed-cell structures that possess graded internal pores, which exhibit three types of continuously graded porosity profiles based on a power-law distribution. A scaling relation for the effective Young's modulus of the cellular structure determined by a variational finite element method (FEM) is used. The effective constitutive law of an elastic isotropic metal matrix containing distributed elastic carbon-nanotubes (CNTs) is estimated in consideration of the impact of CNTs agglomeration using a continuum model based on the Eshelby–Mori–Tanaka (EMT) approach. In contrast to conventional approaches, the study employs Euler–Bernoulli beams to model stiffeners within the CGP shells. This choice allows for a more realistic representation of stiffener effects, as opposed to the prevalent approach of uniform smearing across the shell's surface. The equilibrium equations of the CGP shell, based on the Reddy higher-order shell theory (RHST), is obtained through the application of the Euler equation. Subsequently, the equations for stability are obtained through the utilization of the variational method. This study emphasizes the effects of geometrical parameters, porosity variability, and distribution of CNTs on the buckling performance of the CGP shells. The intricate interplay between CNTs and porosity distributions critically influences the stability behaviour of CGP shells. CNTs arrangement remarkably impacts buckling behaviour at higher length-to-mean radius ratios, while symmetric porosity near the mid-surface significantly enhances stiffness. These findings provide valuable insights for designing closed-cell cellular stiffened shells with optimal porosity to enhance stability.</p>