Manganese additive for aluminum alloy and preparing method of manganese additive

Abstract

The invention belongs to the field of additives for aluminum alloy and discloses a manganese additive for aluminum alloy and a preparing method of the manganese additive. The manganese additive comprises manganese powder, aluminum powder, iron powder and fluxing agents. The manganese powder, the aluminum powder, the iron powder and the fluxing agents are crushed under protection of inert gas. The manganese additive further comprises a surfactant. The manganese additive comprises 86%-97% of the manganese powder, 2.39%-6.39% of the aluminum powder, 0.01%-5% of the fluxing agents, 0.5%-2% of the surfactant and 0%-6% of the iron powder. According to the size distribution, the manganese powder comprises 35%-40% of manganese powder bodies with the size ranging from 325 meshes to 700 meshes, 40%-45% of manganese powder bodies with the size ranging from 100 meshes to 325 meshes, 5%-15% of manganese powder bodies with the size ranging from 60 meshes to 100 meshes and 0%-5% of manganese powder bodies with the size ranging from 10 meshes to 60 meshes. The size distribution of the aluminum powder ranges from 60 meshes to 300 meshes. The size distribution of the fluxing agents ranges from 60 meshes to 300 meshes. The method includes the steps of 1, crushing, 2, material preparing, 3, material mixing, 4, pressing, 5, drying, 6 packaging and the like. According to the manganese additive for the aluminum alloy, the content of manganese is high; and when the manganese additive is dissolved into molten aluminum, the melting temperature is low, the melting time is short, and the recovery rate of manganese is high.

Description

technical field [0001] The invention belongs to the field of additives for aluminum alloys, and in particular relates to a manganese additive for aluminum alloys and a preparation method thereof. Background technique [0002] With the continuous development of aluminum processing and aluminum alloy industry, the development of aluminum alloy is listed as a key development technology. Alloying is an important part of the aluminum alloy production process, and the melting of alloying elements in molten aluminum important process. [0003] At present, alloying elements usually include copper, silicon, magnesium, zinc, manganese, iron, chromium and so on. During implementation, the temperature of aluminum alloy melting and casting is usually 710-750°C. Alloy elements with low melting point or high solubility such as silicon magnesium, copper, etc. can be melted directly in the form of elemental metal powder, but for manganese, Alloy elements with high melting point or low solu...

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Problems solved by technology

However, the production of manganese powder with concentrated particle size distribution is difficult, and it takes a lot of manpower and material resources to strictly control the process parameters in the production process. Repeated analysis and testing, because the large particle size powder after sieving needs to be crushed and sieved again until it reaches the corresponding particle size range, the efficiency is low, while the small particle size powder after sieving cannot be used normally and can only be recycled , re-smelting and crystallization, low efficiency and high production cost, so the production cost of manganese additives made of manganese powder and other additives is also high

[0007] In addition, in order to avoid the loosening of additive products during transportation, the additive products are usually pressed into cakes or balls with high density. The density of existing manganese additives used in aluminum alloy production is usually greater than 5.0g/

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