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Multiscale modeling and calibration framework for predicting the mechanical response of Li-ion battery cell components

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Názov: Multiscale modeling and calibration framework for predicting the mechanical response of Li-ion battery cell components
Autori: Carlstedt, David, 1984, Chetry, Amit, 1998, Larsson, Carl, 1997, Purantagi, Ankeet Mohan, Gustavsson, Peter, Larsson, Fredrik, 1975, Asp, Leif, 1966
Zdroj: Journal of Power Sources. 659
Predmety: Finite element analysis, Electric vehicles, Homogenization, Li-ion batteries, Model calibration
Popis: The mechanical response of battery cells plays a vital role in design of electric vehicles e.g., when evaluating their crashworthiness or studying the effects of cell swelling during operation. In this paper, we present a multiscale modeling framework for predicting the mechanical response of battery cell components at different length scales. Two design optimization loops for calibrating material model parameters are established. First, the effective mechanical response of the binder-conductive additive-electrolyte material phase inside the electrodes is estimated by performing homogenization of microscale Representative Volume Elements (RVEs), while utilizing experimental data for the effective electrode layer and data for the electrode particles from literature. Secondly, the effective response of the jellyroll is estimated by creating an RVE of the electrodes-separator stack and perform homogenization, while utilizing experimental data for the individual layers.
Popis súboru: electronic
Prístupová URL adresa: https://research.chalmers.se/publication/548564
https://research.chalmers.se/publication/548564/file/548564_Fulltext.pdf
Databáza: SwePub
Popis
Abstrakt:The mechanical response of battery cells plays a vital role in design of electric vehicles e.g., when evaluating their crashworthiness or studying the effects of cell swelling during operation. In this paper, we present a multiscale modeling framework for predicting the mechanical response of battery cell components at different length scales. Two design optimization loops for calibrating material model parameters are established. First, the effective mechanical response of the binder-conductive additive-electrolyte material phase inside the electrodes is estimated by performing homogenization of microscale Representative Volume Elements (RVEs), while utilizing experimental data for the effective electrode layer and data for the electrode particles from literature. Secondly, the effective response of the jellyroll is estimated by creating an RVE of the electrodes-separator stack and perform homogenization, while utilizing experimental data for the individual layers.
ISSN:03787753
DOI:10.1016/j.jpowsour.2025.238237