The low self-discharge rate of the industrial button battery allows it to maintain a good power state after long-term storage. This feature is due to its special internal chemical structure and sealing process, which reduces the natural loss of power when not in use, providing reliable protection for emergency use or long-term standby of industrial equipment.
During storage, the low self-discharge rate slows down the rate of power loss. After long-term storage, ordinary batteries often cause a significant drop in power or even complete exhaustion due to self-discharge, while the self-discharge process of the industrial button battery is effectively suppressed. Even after months or even longer storage, the power will not show obvious attenuation, and it can still be maintained at a high level and can be put into use at any time.
Its sealing design further enhances the effect of low self-discharge. The battery shell adopts a strict sealing process, which can effectively block air and moisture from entering the interior, avoiding chemical reactions caused by external factors that aggravate self-discharge. This sealing structure keeps the chemical environment inside the battery stable, reduces unnecessary energy consumption, and allows the power to be better retained during storage.
In the face of different storage environment temperatures, the stability of the low self-discharge rate is still outstanding. Temperature changes can affect the self-discharge rate of the battery. Too high or too low temperatures may accelerate the loss of power, but the industrial button battery has a strong adaptability to temperature. Under common room temperature conditions, the self-discharge rate can be kept at a low level. Even if the temperature fluctuates slightly, the loss of power will not increase significantly, ensuring the stability of power after long-term storage.
For industrial equipment that requires long-term backup, this advantage of low self-discharge rate is particularly important. Many industrial equipment are not in continuous operation, and some equipment is in standby mode, requiring the battery to be able to supply power normally after being stored for a long time. The industrial button battery can meet this demand, providing sufficient power when the equipment is enabled, and will not be unable to start the equipment due to long storage time, thus ensuring the continuity of the industrial process.
After long-term storage, the chemical activity of its electrode material can also be well preserved. The electrode is a key part of the battery to store power. The low self-discharge rate means that the chemical reaction of the electrode material is in a slow state and will not lose its activity due to excessive reaction. When the battery is reactivated, the electrode can quickly resume working state and release the stored power, ensuring that the equipment can operate normally without insufficient power supply.
This low self-discharge characteristic can also reduce battery waste. If the battery has little power left after storage, it will often be discarded, resulting in a waste of resources. However, the industrial button battery can retain its power after long-term storage and can be reused many times in different devices or scenarios. This not only reduces the cost of battery use in industrial production, but also conforms to the concept of energy conservation and consumption reduction, providing support for the sustainable development of the industrial field.
