Production process for aluminum alloy battery boxes
A production process and battery box technology, which is applied in the production process field of aluminum alloy battery boxes, can solve problems such as easy damage, battery stability, and insufficient safety, and achieve the effects of simple process, avoiding box cracking, and high strength
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[0018] Example 1
[0019] The present invention provides a production process of an aluminum alloy battery box, including the following steps:
[0020] S1: Preparation of raw materials. The raw materials are as follows by weight: 0.7 parts of tungsten block, 0.7 part of iron block, 0.4 part of titanium block, 0.4 part of zinc block, 0.1 part of zirconium block, 0.2 part of magnesium block, 1 part of nickel block, and 3 parts of manganese block. 70 parts and aluminum block;
[0021] S2: Weigh the aluminum block in proportion, place it in the melting furnace, and melt the aluminum block at 650 degrees Celsius. After it is completely melted, filter it to remove impurities in the solution And the particles in it can form an aluminum solution, which will be kept warm for later use
[0022] S3: The tungsten block, iron block, titanium block, zinc block, zirconium block, magnesium block, nickel block and manganese block obtained in S1 are added to the smelting furnace in order of melting po...
Example Embodiment
[0031] Example 2
[0032] The present invention provides a production process of an aluminum alloy battery box, including the following steps:
[0033] S1: Preparation of raw materials. The raw materials are as follows by weight: 0.9 parts of tungsten block, 0.9 part of iron block, 0.6 part of titanium block, 0.6 part of zinc block, 0.3 part of zirconium block, 0.3 part of magnesium block, 2 parts of nickel block, 4 parts of manganese block Parts and 74 parts of aluminum block;
[0034] S2: Weigh the aluminum block in proportion, place the aluminum block in the melting furnace, and melt the aluminum block at 650-690 degrees Celsius. After it is completely melted, filter it to remove the solution. The impurities and particles in it can form an aluminum solution, which will be kept warm for later use
[0035] S3: The tungsten block, iron block, titanium block, zinc block, zirconium block, magnesium block, nickel block and manganese block obtained in S1 are added to the smelting furnace...
Example Embodiment
[0044] Example 3
[0045] The present invention provides a production process of an aluminum alloy battery box, including the following steps:
[0046] S1: Preparation of raw materials. The raw materials are as follows by weight: 1.1 parts of tungsten block, 1.1 parts of iron block, 0.7 part of titanium block, 0.7 part of zinc block, 0.4 part of zirconium block, 0.5 part of magnesium block, 2 parts of nickel block, 4 parts of manganese block 76 parts and aluminum block;
[0047] S2: Weigh the aluminum block in proportion and place it in the melting furnace, and melt the aluminum block at 680 degrees Celsius. After it is completely melted, filter it to remove impurities in the solution And the particles in it can form an aluminum solution, which will be kept warm for later use
[0048] S3: The tungsten block, iron block, titanium block, zinc block, zirconium block, magnesium block, nickel block and manganese block obtained in S1 are added to the smelting furnace in order of melting po...
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