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Advantages of ceramic fiber blanket

Advantages of ceramic fiber blanket

The ceramic fiber blanket has stable and reliable quality, good crack resistance, good seismic performance, strong negative wind pressure resistance, light bulk density, good thermal insulation performance, good workability, water retention, no sag, no drooping, and reduced construction consumption. The combustion performance is Class A non-combustible material, which can be quenched and quenched in the temperature range of -40 °C to 800 °C without deformation, no falling off, and resistant to acid, alkali and the like.

The ceramic fiber blanket makes up for the large water absorption and easy aging of the traditional thermal insulation material, and the volume change greatly when it encounters heat and cold, which leads to the phenomenon of falling off and empty drums during the later use of the product. At the same time, due to its high temperature resistance, it makes up for the poor fire resistance of the traditional thermal insulation material.

The fire flame is flammable, the high temperature environment generates harmful gas, and the rebound is large. The ceramic fiber blanket has the highest safety factor in the wall insulation material, and is the best insulation material with comprehensive performance and construction performance.

It can be different according to the use temperature. The insulation material of the model is much more cost-effective than other insulation materials of the same performance.

The ceramic fiber blanket is stable in formation and convenient in construction, which can effectively shorten the construction period. The ceramic fiber blanket is almost unrestricted by the geometry when it is used, and is an excellent choice for wall insulation.

Ceramic fiber blankets can be used not only in building insulation, but also in applications such as: electric boilers, gas turbines and nuclear power insulation. A steam turbine is a rotary power machine that converts the energy of steam into mechanical work. Also known as steam turbine.

Mainly used as a prime mover for power generation, it can also directly drive various pumps, fans, compressors and ship propellers.

It is also possible to use the exhaust or intermediate extraction of the steam turbine to meet the heating needs in production and life.

2. Wall lining of high temperature reaction equipment and heating equipment in the chemical industry.

3. High temperature pipelines, heterogeneous pipelines, industrial kiln wall linings. Welded parts to eliminate stress insulation. When the material does not produce displacement under external force, its geometry and size will change.

4. Insulation of the opposite metal castings to eliminate stress. The top cover of the furnace door is insulated.