GAMA Architecture Eco Glass

Introduction to energy-saving glass/Gama Coating

Glass composition introduction:
Ordinary glass is mainly amorphous silicon dioxide (SiO2), which is the chemical composition of quartz or sand. The melting point of pure silica is 2000 degrees Celsius. Therefore, two materials are generally added when making glass: sodium carbonate (Na2CO3, that is, soda ash) and potassium carbonate (Potash, potash). In this way, the melting point of silica will drop to about 1000 degrees. However, because sodium carbonate will make glass dissolve in water, an appropriate amount of calcium oxide (CaO) is usually added to make the glass insoluble in water.
Transparency to visible light is the biggest feature of glass, but pure glass also has no blocking effect on infrared rays. Therefore, the heat source of light, the heat source of infrared rays, and the damage to skin and furniture caused by ultraviolet ray penetration cannot be taken into consideration by ordinary glass. Therefore, metals or metal oxides are added to the glass, which can change the color of the glass. In addition to being beautiful, it can also block trace amounts of heat sources.

What is Low-E glass:
In the past decade or so, due to the development of science and technology and the prosperity of the economy, high-rise buildings in metropolitan areas have sprung up everywhere, presenting a prosperous scene. However, in order to solve the heat insulation problem of the glass on the exterior walls of early buildings, in addition to using relatively In addition to dark stained glass, reflective glass with a high glare rate is also used. However, this results in dim indoor light and increases lighting power consumption. It also causes disturbing light pollution and environmental protection problems outdoors. It makes it difficult to see through at night, making it even more difficult to see through. The energy saving effect cannot be achieved and the beautiful night view cannot be enjoyed.

Generally, insulating glass can be divided into:
1. Reflective glass made of metal compounds is cheap, but the reflection can easily cause light pollution. It can easily form a mirror effect at night and make it impossible to see through.
2. LOW-E glass made of silver, nickel-chromium, and tin dioxide as raw materials has to be processed into double-layer glass because the silver-plated layer is prone to adverse reactions when exposed to air. It cannot be used as a single piece and is thicker. GAMA energy-saving glass can be selected from single-piece film, glue, or laminated methods, and the changes are more flexible.

Definition and types of Low-E glass:
Glass with high transparency, low glare rate and good radiant heat blocking effect is called low-emissivity glass, which is Low Emissivity Glass or Low-E Glass for short. Current Low-E Glass can be divided into three major categories:

(1)Online Hard Low-E Glass

It can be used in single-piece, glued or laminated combinations. It can be directly strengthened at high temperatures and baked and bent. It is extremely convenient to use. The only shortcoming is that the heat insulation effect is slightly poor. It is more suitable for use in cold areas, with the purpose of blocking heating. loss to achieve the effect of keeping warm.

(2) Offline Soft Low-E Glass

Due to its good thermal insulation effect, it is more suitable for tropical areas. However, because the metal layer coated with chromium cannot withstand high temperatures and is not suitable for long-term exposure to air, causing oxidation, it is only suitable for making flat laminated glass.

(3) Thin film coated low-emissivity glass (PET Low-E Glass)

This film, also known as PET Low-E Film, can be used in single-piece, glued, and laminated glass combinations; due to its excellent heat insulation, anti-ultraviolet and sound insulation effects, and the effect of being warm in winter and cool in summer, it is used Suitable in both tropical and cold regions.

Advantages of energy-saving glass

Global professional ceramic nanotechnology
Best-in-class durability and stability
Up to 99% or more UV resistance
Extremely high infrared blocking rate
Extremely high overall thermal insulation rate
100% dye-free and metal-free
Low reflectivity natural tint
Does not oxidize or fade
Improved comfort – cooler indoors
Avoid harsh sunlight and fading of delicate furniture and upholstery
Reduce air-conditioning consumption and lighting usage to save energy
Minimize impact on GPS systems and mobile phones
Effectively protects humans from skin lesions caused by sun exposure
Increased glass safety to prevent injury from bursting
Enhance the overall beauty with soft and natural colors

The world’s unique ceramic energy-saving explosion-proof glass is a new type of curtain wall building materials product that is a perfect combination of nano-ceramic technology and glass. Compared with the current large-area use of glass on building facades, although it is a current architectural trend, However, the use of curtain wall building materials with poor thermal insulation results in buildings that rely too much on air conditioners, lighting and other technical and artificial means to adjust the living environment. The effect is not only limited, but also consumes energy.

The difference between ceramic energy-saving explosion-proof glass and general architectural glass is that ceramic energy-saving explosion-proof glass can not only insulate heat but also block infrared and ultraviolet rays. It can also reduce solar heat and maintain the cooling effect. It can effectively save energy and achieve explosion-proof effects.

In addition, ceramic energy-saving explosion-proof glass is divided into three product specifications: ceramic energy-saving explosion-proof glass, ceramic energy-saving glued explosion-proof glass, and ceramic energy-saving laminated explosion-proof glass, which can meet the needs of different building designs.