A thermo-mechanically-coupled large-deformation theory for amorphous polymers in a temperature range which spans their glass transition
DOI10.1016/J.IJPLAS.2010.01.004zbMath1426.74083OpenAlexW2074011149WikidataQ60147380 ScholiaQ60147380MaRDI QIDQ422659
Lallit Anand, Shawn A. Chester, Nicoli M. Ames, Vikas Srivastava
Publication date: 18 May 2012
Published in: International Journal of Plasticity (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/1721.1/65822
Finite element methods applied to problems in solid mechanics (74S05) Large-strain, rate-dependent theories of plasticity (74C20) Thermal effects in solid mechanics (74F05)
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Cites Work
- A three-dimensional constitutive model for the large stretch behavior of rubber elastic materials
- On the kinematics of finite strain plasticity
- Allgemeine Kontinuumstheorie der Versetzungen und Eigenspannungen
- Modeling and validation of the large deformation inelastic response of amorphous polymers over a wide range of temperatures and strain rates
- A review of some plasticity and viscoplasticity constitutive theories
- A thermo-mechanically coupled theory for large deformations of amorphous polymers. I: Formulation
- A thermo-mechanically coupled theory for large deformations of amorphous polymers. II: Applications
- A theory of amorphous solids undergoing large deformations, with application to polymeric glasses.
- Granular materials: Constitutive equations and strain localization
- The decomposition \(\mathbf F = \mathbf F^{\text e}\mathbf F^{\text b}\), material symmetry, and plastic irrotationality for solids that are isotropic-viscoplastic or amorphous
- On modeling the micro-indentation response of an amorphous polymer
- On H. Hencky’s Approximate Strain-Energy Function for Moderate Deformations
- Elastic-Plastic Deformation at Finite Strains
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