The Treloar–Kearsley problem for elastomeric materials undergoing time-dependent microstructural evolution: Branching of extensional creep histories
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Publication:5167930
DOI10.1177/1081286511413158zbMath1291.74040OpenAlexW2326186424MaRDI QIDQ5167930
Publication date: 2 July 2014
Published in: Mathematics and Mechanics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1177/1081286511413158
microstructural evolutionnon-linear Volterra integral equationsbranching of extension historiesscission and crosslinking
Related Items (4)
Determining the time of bulge formation in an elastomeric tube as it inflates, elongates and alters chemorheologically ⋮ Combined extension/torsion experiments for assessing a constitutive theory for elastomers undergoing thermally induced microstructural changes ⋮ Branching of stretch histories in biaxially loaded nonlinear viscoelastic fiber-reinforced sheets ⋮ Fiber-reinforced composites: nonlinear elasticity and beyond
Cites Work
- Dynamic inflation of elastomeric spherical membranes undergoing time dependent chemorheological changes in microstructure
- Time dependent scission and cross-linking in an elastomeric cylinder undergoing circular shear and heat conduction
- Bifurcation of response of a nonlinear viscoelastic spherical membrane
- Mechanics of the inelastic behavior of materials. I: Theoretical underpinnings
- Chemorheological response of elastomers at elevated temperatures: experiments and simulations
- Nonlinear Viscoelastic Solids—A Review
- Treloar's Biaxial Tests and Kearsley's Bifurcation in Rubber Sheets
- A Simple Model of the Treloar—Kearsley Instability
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