Reaction Principle of Steam Eye Mask
May 02, 2020
The reaction principle of the steam eye mask is the reaction principle of rapid oxidation after the carbonyl iron powder contacts with oxygen in the air. In order to make the temperature last longer and more constant, the product uses a very precise breathable membrane. Because the product cannot react before use, the material of the bag should be very special. When in use, remove the outer bag and expose the product to the air for 30 seconds. The oxygen in the air enters through the micro-permeable membrane. The time and temperature of the released heat are controlled by the rate of oxygen permeability of the breathable membrane. If the oxygen permeation is too fast, there will be too much heat and it is very likely to burn the skin. If the oxygen permeability is too slow, the temperature is too low. It is a dark brown solid after use, which contains carbon powder, solid (this is edible salt), solid and salts containing magnesium and aluminum.
(1) The external reaction principle of the steam eye mask
The high-quality medical non-woven fabric releases steam evenly, and uses the warmth of steam to promote blood microcirculation in the eye area, relax tense eye muscles, and relieve eye fatigue and discomfort.
(2) The internal reaction principle of the steam eye mask
Use the primary battery reaction to speed up the oxidation reaction, convert chemical energy into heat energy, and then use the generated heat to evaporate the water in the internal materials steadily, so as to use the heat and humidity of steam to relieve eye fatigue and promote eye Blood circulation, eye-catching and other effects.
In order to maintain the temperature, and the inner bag of the heat-generating sheet is exposed to the air, the oxygen in the air enters through the air-permeable membrane, reacts with the iron powder, and releases heat. The time and temperature of heat release is controlled by the oxygen permeability rate of the breathable membrane. If oxygen is permeated too quickly, too much heat is released and the skin may be burned. If the oxygen permeability is too slow, there will be no temperature.
The steam generation process releases heat to the internal materials, which greatly accelerates the evaporation rate of the internal water content, and the evaporated water vapor liquefies quickly when it is cold to form steam.







