PRODUCT
Alumina Silica Ceramic Fiber Insulation
- Alumina Silica Ceramic Fiber Insulation is an excellent choice due to its low thermal conductivity, minimal heat storage, and absence of asbestos.
- Resilience against thermal shocks and high tensile strength are major attributes of ceramic fiber blankets.
- Utilizing Alumina Silica Ceramic Fiber Insulation yields sound absorption and since it lacks binders, it prevents contamination of the furnace from fume discharge.
- Additionally, rapid repair features provide for instant cooling of the furnace in case of lining damage.
- Ceramic fibers rundown the needed curing or drying time, thereby they can be heated to working temperatures immediately.
Product Description
Understanding Alumina Silica Ceramic Fiber Insulation
A Alumina Silica Ceramic Fiber Insulation constitutes of a refractory insulation material crafted using ceramic fibers. The fibers are structured to form a blanket-like entity that delivers outstanding thermal insulation and high temperature resistance.
The Distinct Attributes of Alumina Silica Ceramic Fiber Insulation:
- High temperature resistance reaching up to 2300°F (1260°C)
- Low thermal conductivity contributes to high energy efficiency
- Resistance against corrosive substances and acid
- Non-combustible and acts as a flame retardant
- Installation and size adjustments are simple tasks
- Variety in terms of sizes and thickness levels
The Varying Applications of Alumina Silica Ceramic Fiber Insulation
Alumina Silica Ceramic Fiber Insulation is employed in a range of industries, including:
- Furnaces and Kilns: Used for insulating kiln furniture, furnace linings, and heat processing equipment.
- Power Generation: Insulates turbines, generators, and boilers in power plants.
- Petrochemical Industry: Insulates vessels, pipes, and tools in petrochemical facilities.
- Aerospace Industry: Important for insulating components in aircrafts and spacecrafts.
- High Temperature Scenarios: Insulates heat exchangers, reactors, and other equipment operating at extreme temperatures.