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Ceramic Fiber Blanket is a lightweight and flexible refractory insulation material engineered for continuous high-temperature applications. Manufactured from high-purity ceramic fibers through advanced needling technology, it delivers excellent thermal insulation performance while maintaining low heat storage and superior thermal shock resistance.
Designed for industrial thermal management, Ceramic Fiber Blankets help reduce external equipment temperatures, improve furnace efficiency, and minimize operational energy consumption.
Cera Thermal provides ceramic fiber blankets in multiple temperature classifications, densities, and thickness options to support demanding industrial insulation requirements.
Industrial heating systems require insulation materials that remain stable under repeated heating and cooling cycles. Ceramic Fiber Blanket provides consistent thermal protection while simplifying installation and maintenance.
Low thermal conductivity for reduced heat loss
Excellent thermal shock resistance
Lightweight structure with low heat accumulation
Easy cutting, wrapping, and installation
Stable performance during continuous operation
Good chemical resistance in industrial environments
Long service life with reduced maintenance demand
Ceramic Fiber Blankets are widely integrated into high-temperature equipment and energy-saving retrofit projects.
Industrial furnace backup insulation
Hot face furnace lining
Heat treatment systems
Forging and annealing equipment
Thermal oxidizers
Reformers and reactors
Boiler insulation systems
Petrochemical processing equipment
Pipe wrapping insulation
Expansion joint packing
Flexible thermal sealing
Exhaust duct insulation
Tunnel kiln insulation
Ceramic manufacturing lines
Metallurgical heating equipment
Continuous thermal processing units
Different operating environments require different blanket densities and temperature capabilities.
| Blanket Grade | Classification Temperature | Density Options | Recommended Applications |
|---|---|---|---|
| Standard | Up to 1260°C | 96–128 kg/m³ | General furnace insulation |
| High Purity | Up to 1350°C | 128–160 kg/m³ | Heat treatment systems |
| High Alumina | Up to 1400°C | 128–160 kg/m³ | Petrochemical applications |
Available customization:
Thickness options
Roll dimensions
Density selection
Temperature classification
OEM industrial insulation solutions
Compared with traditional dense refractory materials, Ceramic Fiber Blanket reduces stored heat and shortens thermal response cycles.
| Traditional Dense Refractory | Ceramic Fiber Blanket |
|---|---|
| Higher heat storage | Lower heat storage |
| Longer heating cycles | Faster thermal response |
| Increased energy consumption | Improved efficiency |
| Greater structural load | Lightweight construction |
This helps operators lower fuel consumption while improving temperature control consistency.
Selecting the correct Ceramic Fiber Blanket directly affects insulation performance and service life.
Operating Temperature
Select a grade that exceeds continuous service conditions.
Density Requirement
Higher density typically improves mechanical strength.
Installation Position
Determine whether the material serves as backup insulation, hot face insulation, or pipe wrapping.
Heat Loss Target
Match blanket thickness to energy-saving requirements.
For engineered systems, our technical team can assist with insulation layer design and material recommendations.
Cera Thermal combines refractory manufacturing capability with application engineering support.
20+ years of thermal insulation experience
Stable manufacturing and global delivery capability
Customized refractory blanket solutions
Technical consultation and application support
Consistent production quality and traceability
Our goal is to help customers build safer, more efficient high-temperature systems.
Ceramic Fiber Blanket is primarily used for industrial furnace insulation, pipe wrapping, expansion joints, thermal oxidizers, and high-temperature process equipment.
Different grades support continuous operating temperatures from 1260°C up to 1400°C.
Yes. The blanket structure is flexible, lightweight, and can be cut or shaped directly during installation.
Yes. Its low thermal conductivity helps reduce heat transfer and improve furnace efficiency.
Yes. We support customized thickness, density, dimensions, and temperature classifications.
