Add to ORKGA fast numerical method for an advanced electro-chemo-mechanical model is developed which is able to capture phase separation processes in porous materials. This method is applied to simulate lithium-ion battery cells, where the complex microstructure of the electrodes is fully resolved. The intercalation of ions into the popular cathode material LFP leads to a separation into lithium-rich and lithium-poor phases. The large concentration gradients result in high mechanical stresses. A phase-field method applying the Cahn-Hilliard equation is used to describe the diffusion. For the sake of simplicity, the linear elastic case is considered. Numerical tests for fully resolved three-dimensional granular microstructures are discussed in detail
A finite strain phase field fracture model is presented which treats phase segregation, fracture and...
In this study, the phase separation phenomenon and diffusion-induced stresses in lithium iron phosph...
Computational analysis of lithium ion batteries has been improved since Newman and et al. suggested ...
A fast numerical method for an advanced electro-chemo-mechanical model is developed which is able to...
In this work a phase field method is used for the solution of an electro-chemical diffusion model fo...
Lithium-ion batteries, with their high energy densities and light-weight designs, have found broad a...
In active electrode materials of litium ion batteries, there exists a coupling beween the field of l...
A nonlinear initial boundary value problem for the lithium ion concentration, the electric potential...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Ca...
To study the electrochemical reaction on surfaces, phase interfaces, and crack surfaces in lithium i...
© 2016 John Wiley & Sons, Ltd. Capacity fade in conventional Li-ion battery systems due to chemo-mec...
The fracture in the electrode particle is widely believed to be related to the capacity fade of the ...
Experiments have frequently shown that phase separation in lithium-battery electrodes could lead to ...
This thesis investigates the electro-chemo-mechanics behavior of electrodes in lithium ion batteries...
A promising cathodic material for lithium ion batteries is lithium manganese oxide. However, over ba...
A finite strain phase field fracture model is presented which treats phase segregation, fracture and...
In this study, the phase separation phenomenon and diffusion-induced stresses in lithium iron phosph...
Computational analysis of lithium ion batteries has been improved since Newman and et al. suggested ...
A fast numerical method for an advanced electro-chemo-mechanical model is developed which is able to...
In this work a phase field method is used for the solution of an electro-chemical diffusion model fo...
Lithium-ion batteries, with their high energy densities and light-weight designs, have found broad a...
In active electrode materials of litium ion batteries, there exists a coupling beween the field of l...
A nonlinear initial boundary value problem for the lithium ion concentration, the electric potential...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Ca...
To study the electrochemical reaction on surfaces, phase interfaces, and crack surfaces in lithium i...
© 2016 John Wiley & Sons, Ltd. Capacity fade in conventional Li-ion battery systems due to chemo-mec...
The fracture in the electrode particle is widely believed to be related to the capacity fade of the ...
Experiments have frequently shown that phase separation in lithium-battery electrodes could lead to ...
This thesis investigates the electro-chemo-mechanics behavior of electrodes in lithium ion batteries...
A promising cathodic material for lithium ion batteries is lithium manganese oxide. However, over ba...
A finite strain phase field fracture model is presented which treats phase segregation, fracture and...
In this study, the phase separation phenomenon and diffusion-induced stresses in lithium iron phosph...
Computational analysis of lithium ion batteries has been improved since Newman and et al. suggested ...