Features:

①Large energy saving effect

Insulating glass

Insulating glass

High-performance insulating glass, due to a special metal film, can achieve a shielding coefficient of 0.22-0.49, which reduces the load of indoor air conditioning (cooling). The heat transfer coefficient is 1.4-2.8W (m2.K), which is better than ordinary insulating glass. It also exerts great efficiency in reducing indoor heating load. Therefore, the larger the window is opened, the more obvious the energy saving effect.

②Improve the indoor environment

High-performance insulating glass can intercept the considerable energy hit by the sun indoors, thus preventing the discomfort caused by radiant heat and reducing the glare caused by evening sunlight.

③ Rich tones and artistry

High-performance insulating glass has a variety of colors, you can choose colors according to your needs to achieve a more ideal artistic effect.

④High-performance insulating glass

It is suitable for office buildings, exhibition rooms, libraries and other public facilities and special buildings that require constant temperature and humidity, such as computer rooms, precision instrument workshops, and chemical factories. In addition, it can also be used for sun protection and anti-glare.

Note: The hollow glass is filled with dry air in the middle, so the internal air pressure also changes according to the temperature and air pressure changes, but only a small deformation occurs on the glass surface. In addition, slight warpage may occur during manufacturing, and distortion may also be formed during construction. Therefore, including such factors, sometimes the reflection also changes accordingly and should be taken seriously. Different colors are used, and reflections are different.

Gold, copper and silver metal coatings have high reflectivity in the mid-to-infrared region, that is, when the wavelength range is greater than 4 μm. If the metal coating has a typical thickness, the total reflectance can reach 90%-95%, and the high infrared reflectance is equivalent to the low emissivity (Low-e), which will reduce the radiation conversion of the inner and outer glass plates of the hollow glass component. Correspondingly, the insulation value can be from 0.3W/(m2.K) compared to the standard hollow glass member with an air layer of 12mm. In addition, if the air in the component is replaced by heavy gas, the insulation value is 1.4W/(m2.K). By reducing the thickness of the metal layer, the light transmittance can be increased to about 60%-60%. This very thin coating has a very good protective effect, while still having a high infrared reflectance value, in the range of 85% or 75%. The air layer is filled with heavy gas in the middle of 12mm, and the insulation value of the coating can reach 1.6-1.9W/(m2.K).

The main purpose:

The use of insulating glass

Insulating glass is mainly used in buildings that need heating, air conditioning, prevention of noise or condensation, and the need for direct sunlight and special light. Widely used in residential, restaurants, hotels, office buildings, schools, hospitals, shops and other occasions that require indoor air conditioning. It can also be used in doors, windows, etc. of trains, cars, ships, and freezer cabinets.

Insulating glass is mainly used for outer glass decoration. Its optical performance, thermal conductivity, and sound insulation coefficient should all comply with national standards. Reasonable structure and design of insulating glass that meets the standard can play its heat insulation, sound insulation, anti-theft, and fire prevention effects. Using vacuum double-layer tempered glass can reach the laboratory standard! There are also hollow glass with inert gas and color pigment gas added on the market, as well as adding scenic strips to strengthen and decorate.

The role of hollow glass aluminum spacers: Aluminum is called active metal element, but in the air, a dense oxide film is formed on the surface, so that it cannot continue to interact with oxygen and water. It can react with oxygen at high temperature and release a lot of heat. With this high reaction heat, aluminum can replace metals from other oxides (Thermal method)