Charcoal blocks with semi- graphitic side part for electrolyzing aluminium and production process thereof
A semi-graphite and aluminum electrolysis technology, applied in the field of metallurgy, can solve the problems of complex production process, increase production cost, poor aluminum wetting, etc., and achieve the effects of reducing production cost, saving addition amount and low adsorption capacity
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Embodiment 1
[0020] Example 1 Preparation of semi-graphitic side carbon block for aluminum electrolysis of the present invention
[0021] 1. Manually screen the waste cathode lining produced during the overhaul of the electrolyzer: decompose the waste cathode lining material produced during the overhaul of the electrolyzer into small pieces, clean up the floating dust on the surface, and remove the white and yellowish parts of the surface.
[0022] 2. Remove the white and yellowish part of the surface color of the waste cathode lining and manually break it into small pieces with a size below 600mm.
[0023] 3. Add an appropriate amount of water to the small pieces after manual crushing to moisten them, and further crush them with a crusher. The particle size is controlled within the range of 0-2mm by screening.
[0024] 4. Dry the crushed material.
[0025] 5. Ingredients: Melt 100kg of asphalt, then 175kg of spent cathode lining material, 200kg of calcined anthracite (about 30% of the pa...
Embodiment 2
[0032] Example 2 Preparation of semi-graphitic side carbon block for aluminum electrolysis of the present invention
[0033] 1. Manually screen the waste cathode lining produced during the overhaul of the electrolyzer: decompose the waste cathode lining material produced during the overhaul of the electrolyzer into small pieces, clean up the floating dust on the surface, and remove the white and yellowish parts of the surface.
[0034] 2. Remove the white and yellowish part of the surface color of the waste cathode lining and manually break it into small pieces with a size below 600mm.
[0035] 3. Add an appropriate amount of water to the small pieces after manual crushing to moisten them, and further crush them with a crusher. The particle size is controlled within the range of 0-2mm by screening.
[0036] 4. Dry the crushed material.
[0037] 5. Ingredients: Melt 90kg of asphalt, then 225kg of spent cathode lining material, 185kg of calcined anthracite (about 30% of the par...
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