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contributor authorFoster, J. M.
contributor authorHahn, Y.
contributor authorPatanwala, H.
contributor authorOancea, V.
contributor authorSahraei, E.
date accessioned2025-04-21T10:19:01Z
date available2025-04-21T10:19:01Z
date copyright6/13/2024 12:00:00 AM
date issued2024
identifier issn2381-6872
identifier otherjeecs_22_1_011012.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4305926
description abstractModels that can accurately describe deformation and stress in lithium-ion batteries are required to inform new device designs that can better withstand mechanical fatigue. Developing such models is particularly challenging because (i) there is a need to capture several different materials including active materials, binders, current collectors, and separators, and (ii) the length scales of interest are highly disparate (ranging from a few microns, relevant to active material particles, up to centimeters, relevant to whole devices). In this study, we present a continuum mechanical model that resolves individual active material particles of a nickel-manganese-cobalt-oxide cathode, and predicts the mechanical response of the cathode coating as a whole. The model is validated by comparison with experimental tests which mimic industrial-scale electrode calendaring, and then a parametric study is conducted to provide insight into the roles of the material and geometric properties of the electrode's constituents on the cathode's overall behavior.
publisherThe American Society of Mechanical Engineers (ASME)
titleMechanical Deformation in Lithium-Ion Battery Electrodes: Modeling and Experiment
typeJournal Paper
journal volume22
journal issue1
journal titleJournal of Electrochemical Energy Conversion and Storage
identifier doi10.1115/1.4065534
journal fristpage11012-1
journal lastpage11012-9
page9
treeJournal of Electrochemical Energy Conversion and Storage:;2024:;volume( 022 ):;issue: 001
contenttypeFulltext


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