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21 Aug 2023

Researchers Investigate Effect of Impact on Structurally-Embedded Li-Ion Batteries

21 Aug 2023  by greencarcongress   

Researchers in China are investigating the effect of low-velocity impact loads on structurally embedded Li-ion batteries in vehicles. A paper on their study is published in the Journal of Power Sources.


Li et al.

The integration of energy storage and load bearing in composite structures provides an alternative ideal solution for the next generation of delivery equipment due to its potential in improving energy storage efficiency and space utilization significantly. However, the susceptibility to impact during services makes it necessary to understand the damage and performance degradation of this multifunctional composite structure and its interaction behavior under impact loads to ensure structural integrity and safety behavior.

This study realized the embedded design of lithium-ion batteries (LIBs) into the composite structure and investigated the mechanical-electrochemical coupling behavior of composites-LIB integrated multifunctional sandwich composite structure under low-velocity impact loads.

—Li et al.

The researchers found that embedded batteries experienced micro short circuits during impact-loading process and kept good energy-storage capacity after transient impact.

Charge-discharge cycling tests results indicated that abrupt capacity loss increased with impact energy, and the degradation rate rapidly deteriorated under high impact energy.

Post-mortem inspection revealed that the damage and densification of active materials and separator contributed to the abrupt capacity loss and performance degradation.

Resources

Honggang Li, Dian Zhou, Junchao Cao, Zhihao Li, Chao Zhang (2023) “On the damage and performance degradation of multifunctional sandwich structure embedded with lithium-ion batteries under impact loading,” Journal of Power Sources, Volume 581 doi: 10.1016/j.jpowsour.2023.233509

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