Some key features of 1260C ceramic fiber modules include:
High-temperature resistance:
As mentioned earlier, these modules can withstand temperatures up to 1260°C (2300°F), making them suitable for high-temperature industrial applications.
Low thermal conductivity:
Ceramic fibers have low thermal conductivity, which means they are effective at reducing heat transfer between the hot and cold sides of the insulation.
Thermal shock resistance:
1260C ceramic fiber modules can handle rapid changes in temperature without breaking or losing their insulating properties, making them ideal for applications that involve extreme temperature fluctuations.
Lightweight and easy to install:
Ceramic fiber modules are lightweight compared to traditional refractory materials, making them easier to handle and install. They can be easily mounted onto a steel structure using anchors or other fastening systems.
Flexible and compressible:
Ceramic fiber modules can be compressed and formed to fit irregular shapes and tight spaces, allowing for custom-fit insulation solutions.
Low heat storage:
Due to their low density and low thermal conductivity, ceramic fiber modules have low heat storage, which can reduce the overall energy consumption of a furnace or kiln.
Chemical resistance:
Ceramic fibers are generally resistant to most chemicals, except for strong alkalis and phosphoric acid. This makes them suitable for use in various corrosive environments.
When selecting a ceramic fiber module for your application, it is essential to consider factors such as the operating temperature, required insulation thickness, and any specific chemical resistance requirements. It is also crucial to follow proper installation procedures to ensure optimal performance and longevity of the insulation.