Options
A novel foldable metamaterial for application in the pipeline pressure vessel with a static deformation, strain and stress analysis
Journal
Scientific Reports
ISSN
2045-2322
Date Issued
2025-03-20
Author(s)
Xu Ying
An, Yunzhu
Ye Qige
Liu Kai
Tang Xingjia
Luo Yongji
Abstract
A novel foldable model is used for extending the constitutive relations of a cylindrical pressure vessel composed of the copper matrix cylinders reinforced with three-dimensional nanofillers named as graphene origami.
Deformability is accounted based on the shear deformable kinematic model using the first order shear deformation theory.
The overall material characteristics are evaluated using the Halpin–Tsai micromechanical models and rule of mixture.
The governing equations are derived using the virtual work principle. Nanofiller characteristics dependent results are obtained using the analytical method.
The results show an enhancement in the deformation and stress components with an enhancement in the foldability parameter and thermal loads as well as decrease in volume fraction.
Deformability is accounted based on the shear deformable kinematic model using the first order shear deformation theory.
The overall material characteristics are evaluated using the Halpin–Tsai micromechanical models and rule of mixture.
The governing equations are derived using the virtual work principle. Nanofiller characteristics dependent results are obtained using the analytical method.
The results show an enhancement in the deformation and stress components with an enhancement in the foldability parameter and thermal loads as well as decrease in volume fraction.