How does the New Energy Battery Tray achieve the anti-corrosion function of the battery?
Publish Time: 2024-11-04
The New Energy Battery Tray plays a vital role in preventing battery corrosion, and it achieves this goal through a variety of ingenious designs and material properties.
First of all, from the perspective of material selection, sheet blister trays usually use polymer materials with good chemical stability. These materials themselves are not easy to react chemically with corrosive substances such as electrolytes that may leak from the battery. For example, some high-quality polyolefin materials have stable molecular structures and can resist the erosion of electrolytes in long-term contact, creating a relatively stable storage environment for batteries.
In terms of the surface treatment of the tray, many New Energy Battery Trays will have special coatings. This coating can play an isolating role, like a protective film, separating the battery from possible corrosion sources in the outside world. The coating has the characteristics of low porosity and can effectively prevent corrosive gases, moisture, etc. from penetrating into the battery surface. Even in a humid or chemically polluted environment, these harmful substances can be prevented from contacting the battery, and the battery shell and other components can be prevented from being corroded.
The sealing design of the tray is also a key link in anti-corrosion. Through precise molding technology, the sheet-shaped blister tray can fit tightly with the battery, reducing the presence of gaps. This close fit can prevent dust, water vapor and other corrosive components from entering the contact surface between the battery and the tray, thereby avoiding corrosion caused by long-term accumulation. In addition, the edges and corners of the tray are also carefully designed to ensure that there is no space for dirt or water to accumulate, further reducing the risk of corrosion and ensuring the performance and service life of new energy batteries.
