During the nitrogen cabinet baking process, be cautious not to cause the material trays to release unknown gases, as this may affect the weldability of the equipment. It is essential to maintain detailed baking records during the baking period to control the baking time. After several cycles of reflow welding or rework, this cannot replace the drying process. Some SMD components and motherboards cannot withstand long-term high-temperature baking.

Some FR-4 materials cannot withstand 24-hour baking at 125℃; certain batteries and electrolytic capacitors are also highly sensitive to temperature. Considering these factors, the MSD-SUN electronic temperature control cabinet can be chosen to stabilize the temperature, thereby also ensuring the stable temperature inside the cabinet, which is also known as a temperature and humidity control cabinet, under conditions of sufficient high temperature and oxygen content.

Under normal temperature and high humidity conditions, oxidation can occur. Actual tests have proven that when the environmental humidity exceeds 40%RH, oxidation will commence. As the humidity rises above 65%RH, the rate of oxidation accelerates. Below 30%RH, the oxidation rate of most metals slows down significantly, and below 10%RH, oxidation is rare. This principle is what the electronic storage cabinet is based on. In normal temperature conditions, it creates a low humidity environment (below 30%RH), and even lower than that, super low humidity (below 10%RH), where conditions for oxidation and mold growth do not exist, thereby completing the anti-oxidation function.