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Question:

What is the difference between nanometer ceramic board and ceramic fiber board?

What is the difference between nanometer ceramic board and ceramic fiber board?

Answer:

Ceramic fiber board, also called aluminum silicate fiber board, is a kind of refractory material. It still keeps good mechanical strength even after heating. Compared with fiber blanket and fiber felt, it is rigid and a fiber thermal insulation product with supporting strength. Features: Apart from the excellent performances owned by the corresponding diffuse ceramic fiber cotton, it has solid quality, good toughness and intensity, excellent ability to resist wind erosion. It isn’t bulgy when heating, light in quality, easy to construct and arbitrary to cut and blend. It is the ideal energy-saving material of furnace, pipe and other insulation equipment. 1. high crushing strength and long service life; 2. low thermal capacity and low thermal conductivity; 3. not brittle material and good toughness; 4. precise size and good smoothness; 5. Easy to cut, install and construct; 6. excellent ability to resist wind erosion; 7. continuous production, even fiber distribution and stable performance.
Ceramic silicon fiber board, made by burning long fiber silicon dioxide, clay, talcum powder and colored glaze under 1150 degree, is a revolutionary high-tech building material in the 21st century. Ceramic fiber board, also called aluminum silicate fiber board, is a kind of refractory material. It still keeps good mechanical strength even after heating. Compared with fiber blanket and fiber felt, it is rigid and a fiber thermal insulation product with supporting strength.
The difference between nanometer ceramic fiber board and ceramic fiber board is as follows: The traditional ceramic fiber board with good heat insulation and high temperature resistance is widely applied in some furnaces, but some deficiencies, such as low strength, still exist in this kind of traditional products, which restricts its application in furnaces with high temperature, high pressure and stress. However, product performance is greatly improved with the introduction of nanotechnology and the use of special manufacturing technique. It has high strength, low thermal conductivity, good thermal insulation performance, obvious energy saving effect, which can improve the safety of furnace and develop performance of the product under the condition of high temperature and high pressure.

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