What are the advantages of the structure of ceramic fiber blankets?

The ceramic fiber blanket has low thermal conductivity, low heat capacity, and excellent chemical stability.

It has improved the integrity of the refractory and heat insulation of the kiln. As a brand-new lightweight and high-efficiency refractory material, this product has a special structure in addition to excellent functions. The following is a detailed description of its structural advantages.

1. The anchoring nail for ceramic fiber blanket is in the ice face of the fabric (about 50mm away from the steel plate), and the interval hot surface is far away, which not only reduces the composition of the thermal bridge between the furnace gas and the furnace wall, but also reduces the anchoring. The grade of the raw materials, which in turn reduces the cost of the project.
2. The fiber structure has good overall property, low thermal conductivity of the fiber, good thermal insulation effect, less fiber bulk density, less load on the entire steel structure, and the module does not contain binder, and will not generate reaction with the smoke during use. Harmful gas can be used to maintain steel plates.

3, ceramic fiber blanket itself does not contain water, after the end of construction, without the need for oven, you can put into production, reducing the production cycle.

1. Simple construction and short cycle. Because the furnace lining has elasticity, the amount of tightening can be guessed. Therefore, it is not necessary to leave a large expansion joint during construction. The construction personnel can be employed through basic training, and the construction skill elements have little influence on the heat insulation effect of the furnace lining.

The above is the introduction of the structural advantages of the ceramic fiber blanket, its use performance is very good, more and more are used in all walks of life.

As the third generation refractory material after the traditional heavy refractory brick and unshaped refractory material, it not only has the excellent thermal insulation performance of the general low thermal conductivity material, but also has excellent heat resistance performance for continuous operation at high temperature.