Evaluate Humidity Resistance with Automated Chamber
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Humidity affects the machines either directly or indirectly. It is the most severe environmental factor that has a huge impact on the machines. It has been seen that motor lying in humid environment loses 15 per cent of its life span. Humidity is a poor aspect of nature which is very unpopular to human or machines. Nobody likes it as they makes us feel uncomfortable and makes to perspire more. Humidity is not liked by machines as they make their appearance bad, reason for corrosion, damage the coating etc. There fore it is very vital to conduct a perfect testing of the components, parts of the final product for its humidity resistance power. Humidity chamber or conditioning chamber are used for this type of testing.
To test the humidity resistance of an object there are various methods such as a steamer, used to help in creating a steam at a specific temperature and one can test that the parts tolerance towards heavy humid air in the surrounding. Another method is the atomizer. In this water is sprinkled from the machine in a very tiny molecular atomic size to get in the small cracks of the coating and makes us to condition of the product. Third method is using Water Bath. Water Bath systems are used to generate humidity and works as steam generators. A small water bath is equipped in the mixing assembly where heaters and cooling coils are fitted. As the air is pulled within the mixing assembly, it passes from the bath and accumulates vapour.
Humidity Chamber is utilised to test the humidity effect. The chamber is constructed of strong material and is insulated tightly so that the environment created does not escape the chamber easily. The conditioning chamber has digital controls and lets the sample experience the real-life humid environment within a controlled environment.
Humidity chambers are fitted with microprocessor PID control having high contrast LCD display and CPU logic control system. It is responsible to provide optimum control of temperature, humidity and various other parameters that are controlled by microprocessor PID controllers. Interior and exterior of the chamber are painted and are corrosion resistant made up of stainless steel. Shelves are constructed with a high grade stainless steel wire, adjustable and easy to clean. The door is fitted with glass wool for insulation and has locking system, solid handle, and silicone packing. Lighting system enables operators to see inside the chamber.