Evaluating the Response of Various Li-ion Chemistries to Nail Penetration

Evaluating the Response of Various Li-ion Chemistries to Nail Penetration

Stať ve sborníku mimo WoS a Scopus

The safety of lithium-ion batteries under mechanical abuse, such as nail penetration, depends strongly on cell chemistry and state of charge (SoC). Chemistries like LFP and LTO offer high thermal stability and low risk of thermal runaway, while NMC, NCA, and LCO are more reactive, especially at high SoC. This paper compares the thermal behavior of common Li-ion chemistries based on their material properties and published studies, highlighting their safety characteristics for use in electric vehicles and energy storage systems.

The safety of lithium-ion batteries under mechanical abuse, such as nail penetration, depends strongly on cell chemistry and state of charge (SoC). Chemistries like LFP and LTO offer high thermal stability and low risk of thermal runaway, while NMC, NCA, and LCO are more reactive, especially at high SoC. This paper compares the thermal behavior of common Li-ion chemistries based on their material properties and published studies, highlighting their safety characteristics for use in electric vehicles and energy storage systems.

Li-ion battery, Nail-test, battery abuse

Li-ion battery, Nail-test, battery abuse

ŠEDINA, M.; AMICI, J.; KAZDA, T.

01.09.2025

Brno University of Technology Faculty of Electrical Engineering and Communication Department of Electrical and Electronic Technology

Brno

978-80-214-6356-1

50

52

3

https://www.aba-brno.cz/download/2025-ABAF-Proceeding.pdf