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High-Precision Monitoring of Volume Change of Commercial Lithium-Ion Batteries by Using Strain Gauges

Author

Listed:
  • Lisa K. Willenberg

    (Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, 52066 Aachen, Germany
    Juelich Aachen Research Alliance, JARA-Energy, 52062 Aachen, Germany)

  • Philipp Dechent

    (Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, 52066 Aachen, Germany
    Juelich Aachen Research Alliance, JARA-Energy, 52062 Aachen, Germany)

  • Georg Fuchs

    (Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, 52066 Aachen, Germany
    Juelich Aachen Research Alliance, JARA-Energy, 52062 Aachen, Germany)

  • Dirk Uwe Sauer

    (Institute for Power Electronics and Electrical Drives (ISEA), RWTH Aachen University, 52066 Aachen, Germany
    Juelich Aachen Research Alliance, JARA-Energy, 52062 Aachen, Germany
    Institute for Power Generation and Storage Systems (PGS), RWTH Aachen University, 52062 Aachen, Germany)

  • Egbert Figgemeier

    (Juelich Aachen Research Alliance, JARA-Energy, 52062 Aachen, Germany
    Forschungszentrum Juelich GmbH, IEK-12, Helmholtz-Institut Münster, co ISEA of RWTH Aachen University, 52066 Aachen, Germany)

Abstract

This paper proposes a testing method that allows the monitoring of the development of volume expansion of lithium-ion batteries. The overall goal is to demonstrate the impact of the volume expansion on battery ageing. The following findings are achieved: First, the characteristic curve shape of the diameter change depended on the state-of-charge and the load direction of the battery. The characteristic curve shape consisted of three areas. Second, the characteristic curve shape of the diameter change changed over ageing. Whereas the state-of-charge dependent geometric alterations were of a reversible nature. An irreversible effect over the lifetime of the cell was observed. Third, an s-shaped course of the diameter change indicated two different ageing effects that led to the diameter change variation. Both reversible and irreversible expansion increased with ageing. Fourth, a direct correlation between the diameter change and the capacity loss of this particular lithium-ion battery was observed. Fifth, computer tomography (CT) measurements showed deformation of the jelly roll and post-mortem analysis showed the formation of a covering layer and the increase in the thickness of the anode. Sixth, reproducibility and temperature stability of the strain gauges were shown. Overall, this paper provides the basis for a stable and reproducible method for volume expansion analysis applied and established by the investigation of a state-of-the-art lithium-ion battery cell. This enables the study of volume expansion and its impact on capacity and cell death.

Suggested Citation

  • Lisa K. Willenberg & Philipp Dechent & Georg Fuchs & Dirk Uwe Sauer & Egbert Figgemeier, 2020. "High-Precision Monitoring of Volume Change of Commercial Lithium-Ion Batteries by Using Strain Gauges," Sustainability, MDPI, vol. 12(2), pages 1-15, January.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:2:p:557-:d:307724
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    Citations

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    Cited by:

    1. Davide Clerici & Francesco Mocera & Aurelio Somà, 2020. "Analytical Solution for Coupled Diffusion Induced Stress Model for Lithium-Ion Battery," Energies, MDPI, vol. 13(7), pages 1-20, April.
    2. Chen, Haosen & Fan, Jinbao & Zhang, Mingliang & Feng, Xiaolong & Zhong, Ximing & He, Jianchao & Ai, Shigang, 2023. "Mechanism of inhomogeneous deformation and equal-stiffness design of large-format prismatic lithium-ion batteries," Applied Energy, Elsevier, vol. 332(C).
    3. Jingyi Chen & Genwei Wang & Hui Song & Bin Wang & Guiying Wu & Jianyin Lei, 2022. "Stress and Displacement of Cylindrical Lithium-Ion Power Battery during Charging and Discharging," Energies, MDPI, vol. 15(21), pages 1-22, November.

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