Henan Xinmi Changxing Refractory Material Co., Ltd. Located in Henan Province,China,has been making refractory products from 1978. ChangXing's product covers refractory materials,refractory brick, refractory castable,refractory nozzle, ceramic fiber, slide gate, etc; Changxing products have been exported to more than 20 countries, such as Thailand, Indonesia, Pakistan, Saudi Arabia, South Africa, Turkey, Iran, Iraq...
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Classification of tundish refractory
The refractory materials used in tundish can be divided into three categories in terms of function:
The first type is the lining material, which is mainly composed of thermal insulation layer, permanent layer and working layer;
The second type is flow stabilizing components, including retaining weir, retaining wall, ceramic filter, flow stabilizer, etc;
The third type is the flow control part, including plug rod, sliding nozzle, sizing nozzle and intrusive nozzle.
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Source:
https://www.yilongrefractory.com/news/Classification%20of%20tundish%20refractories.html
E-mail: sales8@chinaelong.com
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Thermal conductivity of refractory bricks
The thermal conductivity of fire bricks is represented by the thermal conductivity that has the ability to transfer heat. Thermal conductivity represents the amount of heat per in unit area, unit time and unit temperature gradient in the energy transfer process.
At 1000 ℃The thermal conductivity of various refractory bricks rate as shown below. The thermal conductivity of different materials is often very different. At normal temperature, the thermal conductivity of various refractory bricks can be from a few percent to several tens (w/(m℃), which is nearly a thousand times lowst than the highest value. As the temperature rises, although the difference between the thermal conductivity of various refractory bricks tends to decrease, but the difference is still large. Such as 1000 degrees centigrade, the thermal conductivity of lightweight silica is only about 0.35W, recrystallized silicon carbide products is about 17.5W/(m℃), graphite can be up to 35W / (m℃).
In addition to temperature, the thermal conductivity of refractory material bricks is closely related to its chemical composition and structure. When refractory bricks are made of crystal, the properties of crystal have obvious influence on thermal conductivity. As we all know, the thermal conductivity of inorganic nonmetallic materials is generally much lower than that of metal. Because inorganic nonmetallic materials are different from metals with metal bonds, there are very few free electrons. The thermal conductivity caused by free electrons in this material is extremely limited, and the lattice vibration is mainly deviated from the degree of resonance. The greater the degree of deviation from the resonance, the thermal conductivity is smaller. The degree of lattice vibration deviation increases with the difference in the molar mass of the constituent components, so the thermal conductivity of the element is the largest. (So the thermal conductivity of graphite is relatively large).
China refractory bricks have a complex structure of crystals, the thermal radiation of the lattice is greater and the thermal conductivity is smaller, such as MgO, A12O3 and MgAl2O4 Such as MgO, A12O3 and MgAl2O4 are equiaxed, but the structure of MgAl2O4 is complex and the thermal conductivity is low. Non-coherent crystals, in the direction of dense particles along the crystal, thermal conductivity is larger. The quartz along the C axis has a dense accumulation of particles, and its thermal conductivity (13.6W/(m℃)) is about twice as high as that of the C axis. The layered structure of graphite, the thermal conductivity parallel to the direction of the level of about 4 times in the direction perpendicular to plane direction.
If the crystal is defective, the formation of substitutional solid solution, because the rules of the crystal structure of the destruction caused by thermal scattering phenomenon, resulting in a decrease in thermal conductivity. Other crystal defects such as vacancies, dislocations and so on, also has a similar effect. Due to the thermal scattering of the grain boundary, the thermal conductivity of the polycrystalline material is lower than that of the single crystal. The refractory raw material of fine grain is lower than that of coarse grain. The material contains impurities, the thermal conductivity is lowered due to the scattering effect.
When refractory bricks contain glass phase, due to the amorphous structure of the disorder, the probability of collision between atoms. So compared with the crystal, thermal conductivity is low. When the refractory brick contains pores, because the thermal conductivity of the gas is smaller than the solid, so with the increase in porosity, the thermal conductivity of the material decreases. This is the basic reason for the low thermal conductivity of porous materials.
Thermal Conductivity
1-Silicon Carbide Brick;2-Magnesia Brick
3-Silicon Carbide Brick(SiC70%);4-Corundum Brick
5-Silicon Carbide Brick(SiC50%);6-Sintered Dolomite Brick
7-Zirconia Brick;8-Chrome-Magnesite Brick
9-Corundum(A12O390%);10-Sillimanite Brick
11-Olive Brick;12-Chromite Brick
13-Silica Bricks;14-Dense Clay Bricks
15-Clay Brick
Article Source:
http://www.chinafirebrick.com/Company_News_128.html
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