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Cathode integral furnace building method of aluminum electrolysis cell for producing high-quality aluminum alloy plates
The invention discloses a cathode integral furnace building method of an aluminum electrolysis cell for producing high-quality aluminum alloy plates, and belongs to the technical field of aluminum electrolysis equipment. The cathode comprises a bottom cathode and a side cathode, the lithium ion battery is characterized in that the bottom cathode and the side cathode are both manufactured by using cold ramming paste prepared from aggregate, an adhesive and an additive as a basic material; the forming process comprises the following steps: S1, mixing and kneading a bottom cold ramming paste material and a side cold ramming paste material; s2, the two kinds of cold ramming paste are correspondingly laid at the bottom and the side portion of the cathode of the aluminum electrolysis cell in a layered mode, ramming is conducted on the cathode, and the lining of the cathode of the aluminum electrolysis cell is formed through rapping layer by layer; and S3, roasting the whole cathode to form the integral aluminum electrolysis cell cathode refractory material furnace shell lining with uniform and continuous phase and structure.
本发明公开了一种生产高品质铝合金板材铝电解槽的阴极整体筑炉方法,属于电解铝设备技术领域;它包括底部阴极和侧部阴极;其特征在于:底部阴极和侧部阴极均使用包括骨料、粘接剂和添加剂在内制成的冷捣糊作为基础材料进行制作;其成型流程包括以下步骤:其制作流程包括:S1、混捏底部冷捣糊和侧部冷捣糊材料;S2、将两种冷捣糊对应分层地敷设在铝电解槽阴极的底部和侧部,对其进行捣制,并逐层振打成型为铝电解槽阴极的内衬;S3、焙烧阴极整体以形成一个物相和结构均匀连续的整体铝电解槽阴极耐火材料炉壳内衬。
Cathode integral furnace building method of aluminum electrolysis cell for producing high-quality aluminum alloy plates
The invention discloses a cathode integral furnace building method of an aluminum electrolysis cell for producing high-quality aluminum alloy plates, and belongs to the technical field of aluminum electrolysis equipment. The cathode comprises a bottom cathode and a side cathode, the lithium ion battery is characterized in that the bottom cathode and the side cathode are both manufactured by using cold ramming paste prepared from aggregate, an adhesive and an additive as a basic material; the forming process comprises the following steps: S1, mixing and kneading a bottom cold ramming paste material and a side cold ramming paste material; s2, the two kinds of cold ramming paste are correspondingly laid at the bottom and the side portion of the cathode of the aluminum electrolysis cell in a layered mode, ramming is conducted on the cathode, and the lining of the cathode of the aluminum electrolysis cell is formed through rapping layer by layer; and S3, roasting the whole cathode to form the integral aluminum electrolysis cell cathode refractory material furnace shell lining with uniform and continuous phase and structure.
本发明公开了一种生产高品质铝合金板材铝电解槽的阴极整体筑炉方法,属于电解铝设备技术领域;它包括底部阴极和侧部阴极;其特征在于:底部阴极和侧部阴极均使用包括骨料、粘接剂和添加剂在内制成的冷捣糊作为基础材料进行制作;其成型流程包括以下步骤:其制作流程包括:S1、混捏底部冷捣糊和侧部冷捣糊材料;S2、将两种冷捣糊对应分层地敷设在铝电解槽阴极的底部和侧部,对其进行捣制,并逐层振打成型为铝电解槽阴极的内衬;S3、焙烧阴极整体以形成一个物相和结构均匀连续的整体铝电解槽阴极耐火材料炉壳内衬。
Cathode integral furnace building method of aluminum electrolysis cell for producing high-quality aluminum alloy plates
一种生产高品质铝合金板材铝电解槽的阴极整体筑炉方法
YANG MENGGANG (author) / WANG QINGZHU (author) / YAN FEIYA (author) / WANG XIANQIAN (author) / ZHANG JIA (author) / WANG YIYUAN (author) / CHENG SHOUYONG (author) / WANG NING (author) / XIA JINGPING (author)
2024-08-16
Patent
Electronic Resource
Chinese
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