Treatment method with copper smelting waste residues applied to sintering
A treatment method and copper smelting technology, which is applied in the field of metallurgy and material science, can solve the problems of short sinter high temperature retention time, deterioration of sintering ore-forming conditions, and low sintering end temperature, so as to promote the formation of microstructure and improve liquid phase production The effect of strong volume and liquid phase generation ability
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Embodiment 1
[0028] (1) Crushing of copper smelting waste residue: get copper smelting waste residue, its main chemical composition is 39.85% TFe (total iron), 0.83wt% Cu, 43.7wt% FeO, 30.81wt% SiO2 . The copper smelting waste slag is crushed into particles whose particle size is 100% less than 5mm and 10% less than 1mm to obtain copper smelting waste slag powder.
[0029] (2) Ingredients: TFe containing 47.4wt%, 0.90wt% Ni, 1.23wt% MgO, 4.83wt% SiO 2 After the laterite nickel ore (37.6wt%) and the copper smelting waste slag powder (9.4wt%) with the LOI value of 13.1wt% are mixed according to the ratio of 8:2, then return ore with 30wt%, 8.0wt% pulverized coal, 5wt% quicklime, 2.5wt% dolomite and 7.5wt% limestone are mixed uniformly to obtain the mixture to be sintered.
[0030] (3) Granulation: add water to the mixture to be sintered, and adjust the moisture content of the mixture to be sintered to 17.0%. Mix in a cylinder mixer, control the speed of the mixer to 30r min -1 , a filling...
Embodiment 2
[0035] (1) Crushing of copper smelting waste residue: get copper smelting waste residue, its main chemical composition is 39.85% TFe, 0.83wt% Cu, 43.7wt% FeO, 30.81wt% SiO 2 . The copper smelting waste slag is crushed into particles whose particle size is 100% less than 5mm and 10% less than 1mm to obtain copper smelting waste slag powder.
[0036] (2) Ingredients: TFe containing 47.4wt%, 0.90wt% Ni, 1.23wt% MgO, 4.83wt% SiO 2 After the laterite nickel ore (32.55wt%) with LOI value 13.1wt% and copper smelting waste slag powder (13.95wt%) are mixed according to the ratio of 7:3, then return ore with 30wt%, 7.5wt% pulverized coal, 5 Quicklime, 2.5wt% dolomite and 8.5wt% limestone are mixed uniformly to obtain a mixture to be sintered.
[0037] (3) Granulation: add water to the mixture to be sintered, and adjust the moisture content of the mixture to be sintered to 16.0%. Mix in a cylinder mixer, control the speed of the mixer to 30r min -1 , a filling rate of 20%, and a gran...
Embodiment 3
[0042] (1) Crushing of copper smelting waste residue: get copper smelting waste residue, its main chemical composition is 39.85% TFe, 0.83wt% Cu, 43.7wt% FeO, 30.81wt% SiO 2 . The copper smelting waste slag is crushed into particles whose particle size is 100% less than 5mm and 10% less than 1mm to obtain copper smelting waste slag powder.
[0043] (2) Ingredients: TFe containing 47.4wt%, 0.90wt% Ni, 1.23wt% MgO, 4.83wt% SiO 2 After the laterite nickel ore (27.6wt%) and copper smelting waste slag powder (18.4wt%) with LOI value of 13.1wt% are mixed according to the ratio of 6:4, then return ore with 30wt%, 7.5wt% pulverized coal, 5wt% quicklime, 2.0wt% dolomite and 9.5wt% limestone are mixed uniformly to obtain the mixture to be sintered.
[0044] (3) Granulation: add water to the mixture to be sintered, adjust the water content of the mixture to be sintered to 16.0%, then mix in a cylinder mixer, control the speed of the mixer to 30r min -1 , a filling rate of 20%, and a g...
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