Mullins' effect in semicrystalline polymers
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Publication:837863
DOI10.1016/J.IJSOLSTR.2009.05.001zbMath1167.74300OpenAlexW1976009271MaRDI QIDQ837863
Publication date: 21 August 2009
Published in: International Journal of Solids and Structures (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijsolstr.2009.05.001
Crystalline structure (74E15) Experimental work for problems pertaining to mechanics of deformable solids (74-05)
Related Items (3)
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Cites Work
- A phenomenological model for healing and hysteresis in rubber-like materials
- Mullins effect and cyclic stress softening of filled elastomers by internal sliding and friction thermodynamics model
- A constitutive model for the Mullins effect with permanent set in particle-reinforced rubber
- Computational modelling of the stress-softening phenomenon of rubber-like materials under cyclic loading
- Computational evaluation of strain-rate-dependent deformation behavior of rubber and carbon-black-filled rubber under monotonic and cyclic straining
- A constitutive model dealing with damage due to cavity growth and the Mullins effect in rubber-like materials under triaxial loading
- Brain tissue deforms similarly to filled elastomers and follows consolidation theory
- Mullins' effect and the strain amplitude dependence of the storage modulus
- A pseudo-elastic model for loading, partial unloading and reloading of particle-reinforced rubber.
- Superimposed finite elastic-viscoelastic-plastoelastic stress response with damage in filled rubbery polymers. Experiments, modelling and algorithmic implementation
- On the relevance of continuum damage mechanics as applied to the Mullins effect in elastomers
- Mullins effect in thermoplastic elastomers: experiments and modeling
- Observation and modeling of the anisotropic visco-hyperelastic behavior of a rubberlike material
- Development of new constitutive equations for the Mullins effect in rubber using the network alteration theory
- Mullins effect in elastomers filled with particles aligned by a magnetic field
- A micro-macro approach to rubber-like materials. III: The micro-sphere model of anisotropic Mullins-type damage
- A theory of stress softening of elastomers based on finite chain extensibility
- A pseudo–elastic model for the Mullins effect in filled rubber
- Stress-strain relations in finite viscoelastoplasticity of rigid-rod networks: applications to the Mullins effect.
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