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In modern architecture and high-tech optical devices, heat insulated glass, with its exceptional thermal insulation properties and high light transmittance, has become an ideal energy-saving glass material. Whether maintaining a cool indoor environment in hot weather or preventing overheating in optical devices, heat insulated glass provides excellent thermal insulation while allowing visible light to pass through, making spaces more comfortable and the visuals clearer.
Heat insulated glass is a special type of glass that effectively blocks solar heat while maintaining high light transmittance. Depending on the material and manufacturing process, heat insulated glass can be divided into three main types:
XRB1 Heat Insulated Glass (Phosphate Absorption Glass): This type of glass absorbs a large amount of near-infrared light, effectively reducing heat entry while maintaining high light transmittance. It is particularly suitable for optical devices.
XRB3 Heat Insulated Glass (Silicate Absorption Glass): Known for its excellent thermal insulation performance, this glass reduces heat buildup in high light environments and is an ideal choice for cold light source products.
Coated Heat Insulated Glass (Nano Coated Glass): Using a heat-insulating nano-powder coating technology, this glass efficiently blocks heat while not affecting visible light transmission. It is widely used in building glass applications and can lower indoor temperatures by 3°C-6°C, significantly improving residential and office comfort. Coated glass is further divided into sunlight control film and low-emissivity (Low-E) glass.
Highly Efficient Insulation, Energy Saving, and Cooling: Heat insulated glass absorbs and blocks a large amount of solar heat radiation, keeping indoor temperatures comfortable, reducing air conditioning energy consumption, and achieving energy-saving and carbon-reduction effects.
Good Light Transmittance, Does Not Affect Daylight: Heat insulated glass has a slight bluish-green tint, close to colorless, ensuring that indoor spaces have ample natural light while blocking excess heat, balancing both lighting and comfort.
Significant Cooling Effect: Coated heat insulated glass, when used in buildings, can directly reduce indoor temperatures by 3°C-6°C, reducing air conditioning load. This is especially suitable for high-rise buildings and commercial spaces in hot climates.
High-Temperature Resistance and Strong Stability: XRB1 and XRB3 heat insulated glass are particularly suitable for high-temperature optical devices, such as surgical lights and projectors, ensuring stable operation in high-brightness environments without heat interference.
High-End Optical Devices: XRB1 and XRB3 thermal insulated glass are widely used in cold light source products like surgical room cold light lamps, slide projectors, and projectors, preventing equipment from being affected by high temperatures, thus extending their lifespan.
Building Energy-Saving Glass: Coated thermal insulated glass is widely used in commercial office buildings, hotels, shopping malls, airports, and other buildings. It reduces the high temperatures caused by direct sunlight, improves indoor comfort, and lowers energy consumption.
High-End Residences and Villas: In luxury homes and high-end residential projects, thermal insulated glass has become an important material to enhance living experiences, effectively reducing indoor temperatures and keeping homes cooler in summer.
Smart Homes and Green Buildings: The energy-saving advantages of thermal insulated glass make it an essential component in smart and green energy-efficient buildings, aligning with the low-carbon, environmentally friendly future trend.
As people's focus on residential comfort and energy efficiency continues to grow, thermal insulated glass is becoming the material of choice for modern buildings and high-end equipment. It not only enhances indoor environmental comfort but also significantly reduces energy consumption, providing a more efficient and eco-friendly solution for buildings and equipment.
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