Needle-punched blanket making process enhances the bonding force between fibers through mechanical interlacing, while further optimizing the uniformity of fiber arrangement.
In industrial production and building environments, high-temperature pipes, steam equipment, and HVAC systems operate year-round. Without effective insulation, a significant amount of heat will be lost to the surrounding air through radiation, convection,
In modern industrial and building energy-saving systems, the choice of insulation materials for pipes and equipment is directly related to energy efficiency, operational safety, and environmental comfort.
Ceramic fiber needle punched blanket, as a high-performance fire-resistant thermal insulation material, has one of its core advantages: excellent resistance to pulverization.
In high-temperature industries such as metallurgy, petrochemicals, glassmaking, and ceramic firing, equipment and pipelines are subjected to extreme heat loads for extended periods, placing extremely stringent demands on the stability of thermal insulatio
In industrial plants, power stations, chemical plants, or the equipment areas of large buildings, high-temperature pipes, like veins, run throughout the facility, transporting steam, hot water, or hot oil to power the entire system.