Technical Articles
A New Type of Inorganic Ceramic Fiber Material
Posted: 12/11/2015 15:09:00  Hits: 276
At present, the thermal insulation material in the market can be roughly divided into: asbestos mat, foam asbestos mat, expanded perlite cement, new-type inorganic ceramic fiber insulation material. The first three kinds of insulation materials not only take up large space, but are expensive when the price is converted to per unit. And they need to be tied on the insulation equipment when used, not only taking up space but also increasing the weight of equipment. Compared with similar product, the new material not only has price advantage, but also reduces the weight of the insulation layer 60%. In recent years, the sales of the product continue to increase slightly and it has won the user's consistent approval.
 
The inorganic ceramic fiber insulation coating
This product is in white fiber paste shape. After dehydration forming, it becomes a kind of thermal insulation layer with micro pore mesh structure, used for heat preservation and insulation of thermal equipment such as valves and pipes, as well as for the heat and cold insulation, sound absorption and fire protection of central air conditioning pipe and wall. The product has been recommended by national energy saving product accreditation committee.
 
Introduction of the characteristics of the inorganic ceramic fiber insulation coating:
1. Improve the heat preservation effect of the equipment. Using closed microporous mesh structure, effectively prevent heat exchange.
2. Long service life. The valid service time can be up to 6 to 7 years, while any other thermal insulating materials, mostly only for 5 years or so.
3. Cold and hot coating is both acceptable. Suitable temperature is 40 - 860 . Compared with similar products, the product has no joint, with strong plasticity.
4. The paint coating is featured by thin layer, less dosage, light weight, no binding, non-toxic, no corrosion and no pollution to the environment.

A New Type of Inorganic Ceramic Fiber Material