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Fine powder chromium preparation for producing aluminium alloy and preparation method for fine powder chromium preparation

An aluminum alloy and powder chromium agent technology, applied in the field of aluminum alloy chromium additives and their preparation, can solve the problems of uneven dispersion of chromium powder, increased energy consumption, inability to melt intermediate alloys, etc., to shorten melting time, reduce fuel use, The effect of saving raw materials

Active Publication Date: 2015-11-11
CHONGQING RUNJI YUANDONG NEW MATERIAL TECH
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  • Summary
  • Abstract
  • Description
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Problems solved by technology

In addition, due to the low content of alloy elements contained in the master alloy, the amount of master alloy used will be relatively large in the calculation of weighing. In order to ensure the temperature of the molten master alloy, the amount of master alloy added each time should not be too much. If the amount is too much, the temperature of the aluminum melt will drop, and the intermediate alloy cannot be melted. Therefore, when producing the same type of aluminum alloy, it is necessary to add a small amount of the intermediate alloy to the aluminum melt many times, so that it will The following problems are caused: 1. The time required to melt the intermediate alloy is too long; 2. The amount of impurities generated by the reaction of the aluminum melt with oxygen, hydrogen, carbon, moisture and other substances in the atmosphere for a long time increases, resulting in an increase in the amount of impurities in the aluminum alloy. The quality is reduced; 3. Long melting time will increase energy consumption, which will increase the burning loss and air absorption of aluminum melt
However, this method needs a large amount of flux to realize, so in each additive product, the content of manganese, iron and chromium can only reach about 85%. If the content of manganese, iron and chromium in the additive product is increased to If it is above 90%, the amount of the corresponding flux will be reduced. After the product is added to the molten aluminum, the manganese, iron, and chromium in the additive cannot be completely melted; , content ratio, etc. have special requirements
Taking chromium as an example, the particle size distribution of chromium powder with a chromium content of 80% is as follows: 5% or less for 60-80 mesh, 30%-35% for 60-80 mesh, and 15% for 80-100 mesh -20%, 100-325 mesh is 35%-45%, less than 325 mesh requires less than 10%; the above-mentioned particle size is mainly between 60-325 mesh, it can be seen that the particle size distribution is very narrow, usually in the crushing process, the particle size distribution The narrower it is, the higher the crushing process requirements are, so the chromium powder with the above particle size distribution has very high requirements on the crushing process, and the processing cost is also very high. For example, in the crushing stage, we need more than 85% of the chromium powder particle size It should not be larger than 60 mesh and not smaller than 325 mesh, but the existing crushing process often cannot meet such a strict particle size distribution range, so the qualified rate of the produced chromium agent is usually lower than 60%.
Furthermore, because the overall average particle size of the chromium powder in the existing chromium-based aluminum alloy additives is relatively large, after adding the aluminum liquid, due to the small specific surface area and small surface energy of the relatively large chromium powder, the melting is relatively slow. Moreover, the casting and melting temperature is required to be high, usually around 710°C
In addition, in order to avoid loosening of the additive product during transportation, the additive product is usually pressed into a cake or ball with a higher density, and the density is usually greater than 5.0g / cm 3 , but for additive products with higher density, after adding molten aluminum, on the one hand, the melting time is relatively slow, and the melting time is usually 15-20min, which is long; At the bottom, the melting speed of the chromium powder will slow down, and it will lead to uneven dispersion of the chromium powder after dissolution; on the other hand, a denser additive product will form a dense protective film on the surface during the melting process, resulting in the inability to continue melting inside. This will make the recovery rate low, the highest can only reach about 90%

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  • Fine powder chromium preparation for producing aluminium alloy and preparation method for fine powder chromium preparation
  • Fine powder chromium preparation for producing aluminium alloy and preparation method for fine powder chromium preparation
  • Fine powder chromium preparation for producing aluminium alloy and preparation method for fine powder chromium preparation

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Embodiment 1

[0032] The present embodiment is used to produce the fine powder chromium agent of aluminum alloy, makes the rugby ball shape of Φ16mm*11mm*4mm, by mass percentage, 90% of chromium powder, 6% of aluminum powder, 3% of sodium hexafluoroaluminate, ten percent Sodium dialkylbenzene sulfonate 1%, the density after compression molding is 2.8g / cm 3 .

[0033] Above-mentioned additive is made according to the following method:

[0034] (1) Pulverization: Protected by inert gas, the chromium metal, aluminum metal and sodium hexafluoroaluminate are respectively pulverized under the protection of inert gas, wherein the particle size range of chromium powder is 10-700 mesh, and the particle size range of aluminum powder is 40-500 mesh, the powder particle size range of sodium hexafluoroaluminate is 40-500 mesh;

[0035] Among them, the particle size distribution of chromium powder is 325-700 mesh chromium powder accounts for 35-40% of the total chromium powder content, 100-325 mesh chr...

Embodiment 2

[0045] The difference between the preparation method of this embodiment and embodiment 1 is:

[0046] (2) Weighing: Weigh the chromium powder, aluminum powder and sodium hexafluoroaluminate powder obtained in step 1 according to the following weight ratio: 97% of chromium powder, 1% of aluminum powder, and 0.01% of sodium hexafluoroaluminate powder;

[0047] (3) Preparation of sodium dodecylbenzenesulfonate solution: according to the total mass of weighing gained in step 2, prepare sodium dodecylbenzenesulfonate solution according to a mass percentage of 1.99%;

[0048] (6) The density of the pressed product is 4.8g / cm 3 .

Embodiment 5

[0050] The difference between this embodiment and embodiment 1 is:

[0051] (2) Weighing: Weigh the chromium powder, aluminum powder, and sodium hexafluoroaluminate powder obtained in step 1 according to the following mass percentages: 90% of chromium powder, 4% of aluminum powder, and 4% of sodium hexafluoroaluminate powder.

[0052] (3) Preparation of sodium dodecylbenzenesulfonate solution: according to the total mass obtained by weighing in step 2, prepare sodium dodecylbenzenesulfonate solution according to 1% by mass.

[0053] (4) Preparation of binder solution: according to the total mass obtained by weighing in step 2, a polyanionic cellulose solution was prepared according to 1% by mass, and the concentration of the binder solution was 20%.

[0054] (6) step 3 and step 4 gained sodium dodecyl benzene sulfonate solution and polyanionic cellulose solution are sprayed in the preliminary mixture of step 5 gained, open mixer, set its stirring frequency as 20- 30 revolutio...

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Abstract

The invention belongs to the field of additives of aluminium alloy, and discloses a fine powder chromium preparation for producing aluminium alloy and a preparation method for the fine powder chromium preparation. The fine powder chromium preparation is a pie-shaped and rugby-shaped preparation formed by pressing chromium powder, aluminium powder and a fluxing agent, wherein the chromium powder and the aluminium powder are separately broken under the inert gas shield. The fine powder chromium preparation further comprises a surfactant. The fine powder chromium preparation comprises the following components in percentage by mass: 90%-97% of chromium powder, 0-9.39% of aluminium powder, 0.01%-5% of the fluxing agent and 0.5%-2% of the surfactant, wherein a, the range of particle size distribution of the chromium powder is 10-700 meshes; b, the range of particle size distribution of the aluminium powder and aluminium inorganic salt is 40-500 meshes. According to the chromium preparation disclosed by the invention, the content of chromium metallic element can reach up to 97%; the melting temperature is low by adopting the chromium additive disclosed by the invention; the additive can melt in an aluminium melt at a temperature as low as 670 DEG C; the melting time is short, and the additive can melt in 10-15 minutes; and the recovery rate of the chromium metallic element is as high as more than 95%.

Description

technical field [0001] The invention belongs to the field of aluminum alloy additives, and in particular relates to an aluminum alloy chromium additive 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, and alloying is an important part of the aluminum alloy production process. The dissolution of alloying elements in molten aluminum is an important process of alloying. The dissolution of elements is closely related to their properties, and is controlled by the destruction of the bonding force of the solid-state structure of the added elements and the diffusion speed of atoms in the aluminum liquid. Alloying elements commonly used in aluminum alloys are: silicon, iron, copper, magnesium, nickel, zinc, vanadium, etc. Some alloying elements with low melting point or high solubility, such as magnesium and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C1/02C22C21/00
Inventor 付黎
Owner CHONGQING RUNJI YUANDONG NEW MATERIAL TECH
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