Magnesium gunning refractory for copper smelting-furnace
A copper smelting furnace and gunning material technology, applied in the field of metallurgy, can solve the problems of affecting the service life of the lining, increasing energy consumption and labor, and production discontinuity, reducing labor intensity of workers, high bonding strength, Guaranteed continuity
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Embodiment 1
[0020] The magnesia gunning material for copper smelting furnace of this embodiment is prepared by the following steps:
[0021] a. First, under normal temperature conditions, it is taken by weight: 10% of fused magnesia with particles of 3-5mm, 10% of sintered magnesia; 10% of sintered magnesia with particles of 1-3mm, and 15% of forsterite 15% of sintered magnesia with particles of 0.1-1mm, 5% of forsterite; 15% of fused magnesia with particle size <0.088mm; 8% of binder; 12% of additive; (wherein the raw material composition of binder and its weight Ratio is: sodium hexametaphosphate 20%, tripolyphosphate 4%, silicon micropowder 30%, secar-71 cement (pure calcium aluminate cement) 46%; The raw material composition and weight ratio of described additive are: powder particle size <0.088mm light burnt magnesia 50%, cordierite particle size <0.088mm 25%, silicon carbide particle size <0.088mm 25%).
[0022] b. Pre-mix fine powder raw materials, binders, and additives through a...
Embodiment 2
[0026] The magnesia gunning material for copper smelting furnace of this embodiment is prepared by the following steps:
[0027] a. First of all, take it by weight ratio under normal temperature conditions: 15% of sintered magnesia with particles of 3-5mm, 15% of sintered magnesia with particles of 1-3mm, and 15% of forsterite; sintered magnesia with particles of 0.1-1mm Magnesia 15%, forsterite 5%; particle size <0.088mm fused magnesia 15%; binder 5%; additive 15%. (wherein the raw material composition of binding agent and its weight ratio are: sodium hexametaphosphate 25%, tripolyphosphate 2%, silicon micropowder 25%, secar-71 cement (pure calcium aluminate cement) 48%; The raw material composition and weight ratio of the additive are as follows: 50% of calcined magnesia with a particle size of <0.088mm, 20% of talc with a particle size of <0.088mm, and 30% of silicon carbide with a particle size of <0.088mm.
[0028] b. Pre-mix fine powder raw materials, binders, and addit...
Embodiment 3
[0032] The magnesia gunning material for copper smelting furnace of this embodiment is prepared by the following steps:
[0033] a. Firstly, take by weight ratio under normal temperature conditions: 10% of sintered magnesia with particles of 3-5mm, 10% of forsterite; 10% of sintered magnesia with particles of 1-3mm, 15% of forsterite; 10% of fused magnesia, 5% of sintered magnesia, 15% of forsterite; 6% of fused magnesia with particle size <0.088mm, 4% of forsterite; 5% of binder; 10% of additive . (wherein the raw material composition of binding agent and its by weight ratio are: sodium hexametaphosphate 15%, tripolyphosphate 1%, silicon micropowder 30%, secar-71 cement (pure calcium aluminate cement) 54%; said additive The raw material composition and its weight ratio are: 50% of light burnt magnesia with a particle size of <0.088mm, 35% of cordierite with a particle size of <0.088mm, and 15% of silicon carbide with a particle size of <0.088mm).
[0034] b. Pre-mix fine po...
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