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Homogenized pouch cell material modelling and a comparison study
Author(s) -
Orhan Osman,
Özel Adnan
Publication year - 2021
Publication title -
international journal of energy research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.808
H-Index - 95
eISSN - 1099-114X
pISSN - 0363-907X
DOI - 10.1002/er.5959
Subject(s) - pouch , compression (physics) , explosive material , tension (geology) , materials science , plasticity , battery (electricity) , stress (linguistics) , experimental data , computer science , structural engineering , mechanical engineering , biological system , composite material , engineering , chemistry , physics , mathematics , thermodynamics , geology , paleontology , power (physics) , linguistics , philosophy , organic chemistry , statistics , biology
Summary Simulation of the mechanical response of lithium‐ion battery cells is preferably over experimental due to the explosive nature of them. There are several mechanical modelling methods for representing pouch cells; this study introduces a modified homogenized model. The model uses mechanical responses of layers from literature to establish an average behavior of a pouch cell. Data is normalized, then unified tension and compression stress‐strain curves are gathered. These properties are used to build a homogenized pouch cell model by using a tension and compression plasticity model. A stress state dependent failure model (GISSMO) is utilized to demonstrate the damage of cell. Finally, experimental studies from literature are employed for validation. As a result, the model simulates peak forces of all experimental studies with a very low deviation. Homogenizing pouch cell with the proposed approach eliminates modeling detail without compromising the overall mechanical response of the cell. The model is seen to be suitable for applications that do not require a precise mechanical response, such as a battery module or pack analysis.