Infrared thermal imagers play an important role in lithium battery safety testing. During the charging and discharging process, lithium batteries generate heat, and improper use or design may lead to overheating, fire, or explosion. Infrared thermal imagers can be used to monitor the temperature changes of batteries and promptly detect potential abnormalities, helping to prevent battery failures.
The following are the applications of infrared thermal imagers in lithium battery safety testing:
Infrared thermal imagers can monitor the temperature distribution of lithium batteries in real time. Abnormal temperature changes may indicate problems inside the battery, such as overheating, hotspots, or local short circuits.
The infrared thermal imagers can help detect possible fault points in battery components, such as areas with abnormal heat or uneven temperatures.
During the charging and discharging process of batteries, infrared thermal imagers can monitor the battery temperature in real time, detect signs of overheating timely, and provide warnings to take necessary measures, such as stopping charging or discharging, to avoid thermal runaway.
The temperature data provided by infrared thermal imagers can be used for evaluating the safety performance of batteries and for improving battery design or safety measures.
Infrared thermal imagers play a crucial role in lithium battery safety testing, helping to monitor and prevent potential battery failures and improve the safety and reliability of battery systems.
