Bulging initiation and propagation in fiber-reinforced swellable Mooney–Rivlin membranes
Heiko Topol, Murtadha J. Al-Chlaihawi, Hasan Demirkoparan, J. Merodio
Abstract
Abstract This article considers a thin-walled hollow cylinder, which is composed of a fibrous and swellable hyperelastic material. The fibers are arranged in two families and they are taken to be parallel within each fiber family. The two fiber families are also assumed to be mechanically equivalent and symmetrically disposed in the ground substance material. At each instant of the homogeneous swelling, the material is taken to be incompressible. This article studies the interplay of swelling, fiber orientation, and the mechanical properties of the constituents on the initiation as well as on the axial propagation of bulging.
Topics & Concepts
Hyperelastic materialMaterials scienceFiberComposite materialSwellingCompressibilityHomogeneousCylinderMechanicsFinite element methodStructural engineeringGeometryMathematicsPhysicsThermodynamicsEngineeringElasticity and Material ModelingCellular Mechanics and InteractionsRheology and Fluid Dynamics Studies