TY - JOUR
T1 - Diffusion-induced stresses in transversely isotropic cylindrical electrodes of lithium-ion batteries
AU - Zhang, Xing Yu
AU - Hao, Feng
AU - Chen, Hao Sen
AU - Fang, Dai Ning
N1 - Publisher Copyright:
© 2014 The Electrochemical Society.
PY - 2014
Y1 - 2014
N2 - As novel electrodes of lithium-ion batteries, anisotropic nanocrystal materials with improved electrochemical performance can experience anisotropic swelling and sustain stresses during charging and discharging. However, previous diffusion-induced stress models have rarely considered the effects of anisotropic properties. In this study, an analytical model of diffusion-induced stresses is developed for transversely isotropic cylindrical electrodes during lithiation under galvanostatic operation. The results show that the transversely isotropic stress solutions for cylindrical electrodes can degrade into isotropic stress solutions, and the radial and tangential stresses depend slightly on the Young's modulus ratio and lithiation expansion coefficient ratio of axial direction to isotropic plane, while the axial stress depends strongly on the two ratios. In addition, we introduce two correction factors which establish a bridge between the stress solutions for transversely isotropic electrodes and isotropic electrodes, and further investigate them from two special cases. It is indicated that transversely isotropic electrodes can be designed more flexibly compared with isotropic ones due to tunable anisotropic properties.
AB - As novel electrodes of lithium-ion batteries, anisotropic nanocrystal materials with improved electrochemical performance can experience anisotropic swelling and sustain stresses during charging and discharging. However, previous diffusion-induced stress models have rarely considered the effects of anisotropic properties. In this study, an analytical model of diffusion-induced stresses is developed for transversely isotropic cylindrical electrodes during lithiation under galvanostatic operation. The results show that the transversely isotropic stress solutions for cylindrical electrodes can degrade into isotropic stress solutions, and the radial and tangential stresses depend slightly on the Young's modulus ratio and lithiation expansion coefficient ratio of axial direction to isotropic plane, while the axial stress depends strongly on the two ratios. In addition, we introduce two correction factors which establish a bridge between the stress solutions for transversely isotropic electrodes and isotropic electrodes, and further investigate them from two special cases. It is indicated that transversely isotropic electrodes can be designed more flexibly compared with isotropic ones due to tunable anisotropic properties.
UR - http://www.scopus.com/inward/record.url?scp=84923643328&partnerID=8YFLogxK
U2 - 10.1149/2.0991414jes
DO - 10.1149/2.0991414jes
M3 - Article
AN - SCOPUS:84923643328
SN - 0013-4651
VL - 161
SP - A2243-A2249
JO - Journal of the Electrochemical Society
JF - Journal of the Electrochemical Society
IS - 14
ER -