Insulated glass
Insulated glass or we say Insulating glass , is constructed by effectively supporting two or more glass pieces that are equally spaced and sealed at the periphery to create a dry gas space between the glass interlayers. Initially, dry air served as the insulated glass's interlayer; today, other
Product Details
Insulated glass or we say Insulating glass , is constructed by effectively supporting two or more glass pieces that are equally spaced and sealed at the periphery to create a dry gas space between the glass interlayers. Initially, dry air served as the insulated glass's interlayer; today, other gases with a lower thermal conductivity than air are employed instead.
The primary function of the insulating glass's thermal insulation is to insulate the gas interlayer, allowing for a temperature differential of almost or greater than 10 °C between the two sides. This is because only a small amount of the energy transmission of the hollow glass is accounted for by convective and conduction heat transfer because the gas in the interlayer is in a confined region and does not convect.
During the winter, insulated glass reduces heat loss from the interior through its exterior surface; the greater the thermal insulation performance, the lower the thermal resistance. A low-emission coating applied to the glass can lower its radiation emissivity to 0.1 and improve insulation by reducing the amount of heat emitted from the room during the winter.
A desiccant that can absorb water molecules is present inside the insulated glass, and the gas inside is dry. When the temperature is dropped, condensation does not occur inside the insulated glass, and the dew point temperature of the glass's exterior likewise rises. The primary distinction between double glass and insulated glass is this.
The regular thickness for Insulated glass can be 4+8A+4mm 5+12A+5mm ,6+12A+6mm, 8+12AR+8mm, 10+16A+10mm, 12+16A+12mm 5+15A+5mm,5+22A+5mm,5+27A+5mm,5+32A+5mm……
Two or more layers of flat glass combine to form Insulated glass. When joining and sealing two or more pieces of glass, use a high-strength, high-airtightness composite glue and glass or sealing strips. To guarantee that the air between the glass sheets is dry, fill the center with dry gas and the frame with desiccant. According to needs, a variety of glass raw materials with varying performance can be chosen, including tempered glass, laminated glass, heat-absorbing, heat-reflecting, colorless transparent float glass, and frames (such as aluminum frames or glass strips) that can be created by bonding, welding, or fusion.
Float glass sheets that are 3mm, 4mm, 5mm, 6mm, 8mm, 10mm, and 12 mm thickness can be used to create Insulated glass. The thickness of the air layer can be spaced at intervals of 6, 9, and 12 mm.
A specific amount of space remains between the insulating glass panes. To make sure the space between the glass sheets is dry, add desiccant to the frame. Generally, there are 8 mm between the two insulating glass layers.
By the way ,we also supply High quality Stained glass and Mirror also
About the features of Insulated glass
Insulated glass has good energy-saving effects
High-performance Insulating glass can enhance the interior atmosphere and block out a significant amount of solar radiation, preventing heat radiation discomfort and glare from setting sunlight.
High-performance insulating glass comes in a variety of hues that can be chosen to suit specific requirements and provide more beautiful artistic effects.
About the application of Insulated glass
Ideal for public spaces like libraries, office buildings, and exhibit halls as well as unique structures like computer rooms, precision instrument workshops, and chemical factories that need a steady temperature and humidity level. It can also be used to shield against sun exposure and glare from twilight lighting.
Note that just a slight deformation happens on the glass surface because dry air is enclosed in the middle of the insulating glass, causing the internal air pressure to vary depending on temperature and pressure. Furthermore, some deformation and warping could happen during building and production, respectively. Therefore, it is important to take seriously the accompanying shifts in reflection that occasionally occur as a result of these causes. Different hue selections provide various reflections.
The majority of buildings that require air conditioning, heating, noise reduction, condensation prevention, and unique lighting that doesn't require direct sunlight employ hollow glass. extensively utilized in buildings that need indoor air conditioning, such as homes, restaurants, hotels, offices, schools, hospitals, and retail stores. It can also be applied to freezer doors and windows, automobile doors, ship doors, and other surfaces.
The major application for Insulated glass is exterior glass decoration. It should meet national criteria for optical performance, thermal conductivity, and sound insulation coefficient. For thermal insulation, acoustic insulation, anti-theft, and fire prevention benefits, insulated glass requires a suitable construction and a design that complies with regulations. Utilizing vacuum-layered tempered glass can more effectively fulfill
Because Insualted glass performs exceptionally well at both sound and heat insulation, it is a popular choice for energy-saving construction materials. In addition, there is a growing need for insulating glass with higher quality standards. It is acknowledged that the largest quality problem with insulating glass is the hollow air layer condensing while in use, which occurs when the air layer's dew point rises during operation. Consequently, the secret to managing the quality of insulating glass is to regulate its dew point.
When using insulated glass, condensation or frost will form on the surface when the outside temperature falls to the dew point within the dry air layer.