On mechanically induced degradation of fiber-reinforced hyperelastic materials
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Publication:2842405
DOI10.1177/1081286511404040zbMath1269.74049OpenAlexW2005943103MaRDI QIDQ2842405
Publication date: 14 August 2013
Published in: Mathematics and Mechanics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1177/1081286511404040
stress relaxationcreepconstitutive behaviorhyperelasticityfiber-reinforced materialsmaximum rate of dissipationbiodegradable constructsdegradable polymer
Related Items (6)
On strain-induced degradation of the polymeric skeleton in poro-hyperelastic inflating vessels by a non-equilibrium thermodynamic framework ⋮ A phenomenological constitutive model for the nonlinear viscoelastic responses of biodegradable polymers ⋮ Equilibrium paths of a hyperelastic body under progressive damage ⋮ On compressible versions of the incompressible neo-Hookean material ⋮ Fiber-reinforced composites: nonlinear elasticity and beyond ⋮ Coupled ductile-hydrolytic damage model based on variational constitutive updates
Cites Work
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- Mechanical response of fiber-reinforced incompressible non-linearly elastic solids
- Equilibrium states of mechanically loaded saturated and unsaturated polymer gels
- A new constitutive theory for fiber-reinforced incompressible nonlinearly elastic solids
- Remarks on the behavior of simple directionally reinforced incompressible nonlinearly elastic solids
- A composites-based hyperelastic constitutive model for soft tissue with application to the human annulus fibrosus
- On the shear and bending of a degrading polymer beam
- Constitutive modelling of arteries
- Azimuthal Shear of a Transversely Isotropic Elastic Solid
- The Derivation of Constitutive Relations from the Free Energy and the Dissipation Function
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