Comparison of a phase-field model for intercalation induced stresses in electrode particles of lithium ion batteries for small and finite deformation theory
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Publication:1669474
DOI10.1016/j.euromechsol.2014.02.020zbMath1406.74227OpenAlexW2015314532MaRDI QIDQ1669474
Ann-Christin Walk, Magalie Huttin, Marc Kamlah
Publication date: 3 September 2018
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2014.02.020
Related Items (11)
Isogeometric analysis of mechanically coupled Cahn-Hilliard Phase segregation in hyperelastic electrodes of Li-ion batteries ⋮ A nonlocal species concentration theory for diffusion and phase changes in electrode particles of lithium ion batteries ⋮ Diffusion-induced stresses in an imperfect bilayer electrode of coin-shaped lithium-ion batteries ⋮ Frontiers in finite-deformation electromechanics ⋮ A finite strain electro-chemo-mechanical theory for ion transport with application to binary solid electrolytes ⋮ Simulation of the deformation for cycling chemo-mechanically coupled battery active particles with mechanical constraints ⋮ An investigation of the critical conditions leading to deintercalation induced fracture in two-phase elastic electrode particles using a moving interphase core-shell model ⋮ Buckling behavior of a wire-like electrode with a concentration-dependent elastic modulus based on a deformed configuration ⋮ On the study of cyclic plasticity behaviour of primary electrode particle for lithium-ion battery ⋮ Study on an Adaptive Finite Element Solver for the Cahn–Hilliard Equation ⋮ Phase-field study of electrochemical reactions at exterior and interior interfaces in Li-ion battery electrode particles
Cites Work
- A Cahn-Hilliard-type theory for species diffusion coupled with large elastic-plastic deformations
- Sharp limit of the viscous Cahn-Hilliard equation and thermodynamic consistency
- Generalized Ginzburg-Landau and Cahn-Hilliard equations based on a microforce balance
- Free Energy of a Nonuniform System. I. Interfacial Free Energy
- A gradient theory of single-crystal viscoplasticity that accounts for geometrically necessary dislocations
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