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Chinandegan MF. was established in 1989 to
produce kiln furniture's and refractory with capacity of 3000 tons per
year.
Chinandegan MF. pays special attentions to
research and development of its activities. In fact, the well
experienced staff of Chinandegan MF. products specialists is continually
evaluating new raw materials, studding new formulations and creating new
products to fulfill the functional requirements demanded by the
industry.
Cordierite:
Cordierite
is the most economical refractory for use in the ceramic tile industry
and can withstand high thermal shock.
Cordierite is suitable for use in the
production of tile, and can be used up to a temperature of approximately
1100 °C.
|
Phase Analysis |
Bulk Density |
Apparent Porosity |
Cold Bonding Strengt |
Coefficient of Thermal Expansion |
Max. Working Temperature |
Thermal Shock Resistance |
|
Cordierite |
1.8 - 2.2 g/cm3 |
17-22% |
12 - 20 Mpa |
2.5x10-6
(K-1) |
1100 °C |
Excellent |
Mul-Cord:
Mul-Cord,
high quality refractory was developed by Chinandegan for use in the
ceramic tile and porcelain industries. Mul-Cord can be used for long
periods and can withstand high thermal loading and shock.
Mul-Cord is especially suitable for use in
high quality goods and large sized tiles, and can be a decided advantage
for fuel efficiency because Mul-Cord is the thin and light Kiln
furniture.
|
Phase Analysis |
Bulk Density |
Apparent Porosity |
Cold Bonding Strengt |
Coefficient of Thermal Expansion |
Max. Working Temperature |
Thermal Shock Resistance |
|
Mul-Cordierite |
2.2 - 2.5 g/cm3 |
15-20% |
16 - 22 Mpa |
3.5x10-6
(K-1) |
1300 °C |
Good |
Mullite:
Mullite is suitable for use in the production of porcelain industry
(sanitary ware & china ware). Mullite is made from high quality
material therefore it can be used without bending
for long life span.
|
Application Temperature |
Bulk Density |
Porosity |
Thermal Expansion |
Thermal Shock |
|
1350 °C |
2.2 g/cm3 |
20% |
3.6x10- 6/°C |
Good |
SIC:
|
Phase Analysis |
Bulk Density |
Apparent Porosity |
Cold Bonding Strengt |
Coefficient of Thermal Expansion |
Max. Working Temperature |
Thermal Shock Resistance |
|
Sic (50-90%) |
2.3 - 2.6 g/cm3 |
17-22% |
16- 30 Mpa |
4.5-50x10-6
(K-1) |
1450 °C |
25 |
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