Simulation of Lithium Plating Due to Spatial Inhomogeneous Separator Strain in Lithium-Ion-Cells

Fabian Ebert; Andreas Oberbauer; Maria Angeles Cabañero; Gerhard Sextl; Markus Lienkamp

doi:10.20485/JSAEIJAE.10.2_242

Simulation of Lithium Plating Due to Spatial Inhomogeneous Separator Strain in Lithium-Ion-Cells

Fabian Ebert, Andreas Oberbauer, Maria Angeles Cabañero, Gerhard Sextl, Markus Lienkamp

Chair of Automotive Technology

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The electrodes and especially the separator of a lithium-ion-cell are exposed to mechanical stress due to expansion of electrode materials during operation if the electrodes are integrated in a stiff cell casing e.g. in a 18650 cell. As a result, the porosity and therefore the lithium-diffusion characteristics are altered. In this paper a simulative study of spatially resolved effects from inhomogeneous separator porosity reduction induced by mechanical strain is presented. The findings show significantly changed spatial current densities and local anode voltage potentials that match findings of post-mortem investigations.

Original language	English
Pages (from-to)	242-248
Number of pages	7
Journal	International Journal of Automotive Engineering
Volume	10
Issue number	2
DOIs	https://doi.org/10.20485/JSAEIJAE.10.2_242
State	Published - 2019

Keywords

Battery technology
Charge/discharge / simulation
Ev and hv systems
Lithium ion battery
Lithium plating [a3]
Mechanical stress

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.20485/JSAEIJAE.10.2_242

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title = "Simulation of Lithium Plating Due to Spatial Inhomogeneous Separator Strain in Lithium-Ion-Cells",

abstract = "The electrodes and especially the separator of a lithium-ion-cell are exposed to mechanical stress due to expansion of electrode materials during operation if the electrodes are integrated in a stiff cell casing e.g. in a 18650 cell. As a result, the porosity and therefore the lithium-diffusion characteristics are altered. In this paper a simulative study of spatially resolved effects from inhomogeneous separator porosity reduction induced by mechanical strain is presented. The findings show significantly changed spatial current densities and local anode voltage potentials that match findings of post-mortem investigations.",

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AU - Ebert, Fabian

AU - Oberbauer, Andreas

AU - Cabañero, Maria Angeles

AU - Sextl, Gerhard

AU - Lienkamp, Markus

PY - 2019

Y1 - 2019

N2 - The electrodes and especially the separator of a lithium-ion-cell are exposed to mechanical stress due to expansion of electrode materials during operation if the electrodes are integrated in a stiff cell casing e.g. in a 18650 cell. As a result, the porosity and therefore the lithium-diffusion characteristics are altered. In this paper a simulative study of spatially resolved effects from inhomogeneous separator porosity reduction induced by mechanical strain is presented. The findings show significantly changed spatial current densities and local anode voltage potentials that match findings of post-mortem investigations.

AB - The electrodes and especially the separator of a lithium-ion-cell are exposed to mechanical stress due to expansion of electrode materials during operation if the electrodes are integrated in a stiff cell casing e.g. in a 18650 cell. As a result, the porosity and therefore the lithium-diffusion characteristics are altered. In this paper a simulative study of spatially resolved effects from inhomogeneous separator porosity reduction induced by mechanical strain is presented. The findings show significantly changed spatial current densities and local anode voltage potentials that match findings of post-mortem investigations.

KW - Battery technology

KW - Charge/discharge / simulation

KW - Ev and hv systems

KW - Lithium ion battery

KW - Lithium plating [a3]

KW - Mechanical stress

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JF - International Journal of Automotive Engineering

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ER -

Simulation of Lithium Plating Due to Spatial Inhomogeneous Separator Strain in Lithium-Ion-Cells

Abstract

Keywords

UN SDGs

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