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ISBN: 1000136047 3731511193 Year: 2021 Publisher: Karlsruhe KIT Scientific Publishing
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This contribution presents an analytical and a numerical model for predicting the effective thermal conductivity of porous electrode coatings as a function of microstructure parameters. Both models account for the morphological parameters and the thermal bulk materials of the constitutive cell components. The results of both models have been successfully verified against each other and validated with literature data as well as own experimental measurements.
Mechanical engineering & materials --- thermal conductivity --- thermal transport properties --- porous electrodes --- lithium-ion cell --- lithium-ion battery --- Wärmeleitfähigkeit --- thermische Transporteigenschaften --- poröse Elektroden --- Lithium-Ionen Zelle --- Lithium-Ionen Batterie
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ISBN: 1000131644 3731510987 Year: 2021 Publisher: Karlsruhe KIT Scientific Publishing
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In this work, the influence of compaction of LiNi1/3Co1/3Mn1/3O2 and graphite-based electrodes is characterized electrochemically at current rates between C/20 and 5C in a wide porosity range from uncompacted states to porosities < 20%. From the determined capacitances, gravimetric and volumetric considerations, among others, are presented in Ragone plots and correlated with the microstructural analysis findings.
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