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18 years of drying manufacturers tell you how to store optoelectronic materials correctly

2020-03-04   

Optoelectronic materials refer to materials used to manufacture various optoelectronic devices (mainly including various active and passive photoelectric sensors, optical information processing and storage devices, and optical communications, etc.).

The application fields of optoelectronic materials are all high-end fields, and the requirements for raw materials are relatively strict. In order to ensure the quality of optoelectronic materials, the general factory will adopt the method of vacuum packaging, and then wrap the bubble cotton into moisture-proof beads and then seal and pack it into a carton for safe transportation and storage. But once these raw materials arrive in our manufacturers, there are bound to be some materials that have been opened but not used up. If they are not stored properly at this time, the optoelectronic materials will become moldy, damp, and energized, resulting in poor communication after use. Wait for the situation.

So, how to store optoelectronic materials without affecting their use? Moisture is the nemesis of all optoelectronic materials. If moisture-proof work is not carried out daily, it is easy to cause problems in the finished products made of these optoelectronic materials. Therefore, the optoelectronic materials should be stored in high-quality moisture-proof cabinets, which can control the cabinet. Humidity, so that the items inside are not affected by external moisture. If it is used on a production line where the door is frequently opened and closed, it is recommended to choose a nitrogen cabinet with a faster dehumidification speed, otherwise it will be difficult to reduce the humidity in the cabinet due to the number of opening the cabinet door.

In addition to preventing moisture, optoelectronic materials should also be anti-static. Static electricity is very harmful to optoelectronic materials. Static electricity can easily penetrate integrated circuits and sophisticated electronic components, and can prevent the transmission of optoelectronic media, leading to paralysis of optoelectronic products. Therefore, optoelectronic materials should also have anti-static function when choosing a moisture-proof cabinet.