Stress induced by diffusion and local chemical reaction in spherical composition-gradient electrodes

Composition-gradient electrodes with their excellent electrochemical performance and mechanical durability are superior to homogeneous ones. In this work, taking into account the local solid reaction and composition-gradient electrode, a generalized diffusion–deformation–reaction model with E , D ,...

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Veröffentlicht in:	Acta mechanica 2020-07, Vol.231 (7), p.2669-2678
Hauptverfasser:	Hu, Hai, Yu, Pengfei, Suo, Yaohong
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Sprache:	eng
Schlagworte:	Analysis Batteries Chemical composition Chemical reactions Classical and Continuum Physics Computer simulation Concentration gradient Control Durability Dynamical Systems Electrochemical analysis Electrochemistry Electrodes Engineering Engineering Fluid Dynamics Engineering Thermodynamics Heat and Mass Transfer Lithium-ion batteries Mathematical models Numerical analysis Original Paper Rechargeable batteries Solid Mechanics Stress concentration Theoretical and Applied Mechanics Vibration
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container_title	Acta mechanica
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creator	Hu, Hai Yu, Pengfei Suo, Yaohong
description	Composition-gradient electrodes with their excellent electrochemical performance and mechanical durability are superior to homogeneous ones. In this work, taking into account the local solid reaction and composition-gradient electrode, a generalized diffusion–deformation–reaction model with E , D , and Ω -dependent r under potentiostatic operation is developed. Then, some numerical simulations are performed to obtain the evolutions of concentration, radial stress, and tangential stress. The influences of Thiele number and reaction order on the concentration and stresses are also discussed. Finally, some comparisons between composition-gradient electrodes and homogeneous ones are made to show that the composition-gradient electrode is more helpful to improve the mechanical durability of Li-ion batteries than the homogeneous one.
doi_str_mv	10.1007/s00707-020-02652-4
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In this work, taking into account the local solid reaction and composition-gradient electrode, a generalized diffusion–deformation–reaction model with E , D , and Ω -dependent r under potentiostatic operation is developed. Then, some numerical simulations are performed to obtain the evolutions of concentration, radial stress, and tangential stress. The influences of Thiele number and reaction order on the concentration and stresses are also discussed. 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subjects	Analysis Batteries Chemical composition Chemical reactions Classical and Continuum Physics Computer simulation Concentration gradient Control Durability Dynamical Systems Electrochemical analysis Electrochemistry Electrodes Engineering Engineering Fluid Dynamics Engineering Thermodynamics Heat and Mass Transfer Lithium-ion batteries Mathematical models Numerical analysis Original Paper Rechargeable batteries Solid Mechanics Stress concentration Theoretical and Applied Mechanics Vibration
title	Stress induced by diffusion and local chemical reaction in spherical composition-gradient electrodes
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