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Rare earth aluminum alloy material and preparation method thereof

A technology of aluminum alloy materials and rare earths, applied in the field of metal alloys, can solve the problems of short production process, difficulty in forming products, cumbersome preparation process, etc., and achieve the effect of reducing the solidification interval, reducing the distance between dendrites and excellent forming efficiency

Active Publication Date: 2020-03-17
KA FUNG IND TECH HUIZHOU CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Deformed aluminum alloy reduces casting defects by means of pressure processing, and at the same time refines the grains through shear strain and recrystallization during the deformation process, which improves the density of the material and has the advantages of high strength and good toughness, but the deformed aluminum alloy High requirements on equipment and tooling molds, cumbersome preparation process, long production cycle and high production cost
Compared with wrought aluminum alloys, cast aluminum alloys have the advantages of short procedures and high production efficiency, especially in the production of castings with complex structures. However, cast aluminum alloys have strict requirements on alloy properties and must have good fluidity and solidification properties. Shrinkage, otherwise the cast product is difficult to form or has defects that are difficult to eliminate

Method used

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  • Rare earth aluminum alloy material and preparation method thereof

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Effect test

Embodiment 1

[0038] This embodiment discloses a high-strength rare earth aluminum alloy material and its preparation method. The rare earth aluminum alloy material introduces Ti, Sr, Ce and La rare earth elements into the aluminum alloy, which effectively improves the casting performance of the aluminum alloy. Reduce the solidification interval and dendrite spacing of the alloy, and have higher strength and plasticity. The rare earth aluminum alloy material does not require high-purity Al ingots and expensive alloys such as Zr, V, Y, etc., and has low requirements on the ratio control of certain components, low production costs, and high industrialization value.

[0039] The rare earth aluminum alloy material of this embodiment is calculated according to mass percentage, and includes the following components: 7.3% Si, 4.2% Cu, 0.31% Mg, 0.7% Mn, 0.27% Re, 0.13% Ti, 0.01% Sr and 86.93% Al, the mass percentage of all impurities is 0.15%; wherein, in the said Re, the mass percentage of Ce is ...

Embodiment 2

[0056] This embodiment provides a rare earth aluminum alloy material, which includes the following components according to the mass percentage: 6.6% Si, 1.63% Cu, 0.35% Mg, 0.8% Mn, 0.28% Re, 0.12% of Ti, 0.04% of Sr and 90.03% of Al, the mass percentage of all impurities is 0.15%; wherein, in the Re, the mass percentage of Ce is 60%; the mass percentage of impurity Fe is 0.1% .

[0057] The preparation raw materials, equipment and preparation method of the rare earth aluminum alloy material are the same as the first embodiment, but the addition amount of each raw material is prepared according to the formula of this embodiment. As shown in Table 1, the tensile strength of this rare earth aluminum alloy material is 358.9MPa, the elongation is 3.52%, and the hardness is 92HBW, which has the advantages of high strength and good plasticity.

Embodiment 3

[0059] This embodiment provides a rare earth aluminum alloy material, which includes the following components according to the mass percentage: 8.0% Si, 2.0% Cu, 0.35% Mg, 0.8% Mn, 0.28% Re, 0.12% of Ti, 0.04% of Sr and 88.26% of Al, the mass percentage of all impurities is 0.15%; wherein, in the said Re, the mass percentage of Ce is 80%; the mass percentage of impurity Fe is 0.1%

[0060] The preparation raw materials, equipment and preparation method of the rare earth aluminum alloy material are the same as the first embodiment, but the addition amount of each raw material is prepared according to the formula of this embodiment. As shown in Table 1, the tensile strength of this rare earth aluminum alloy material is 371.1MPa, the elongation is 3.82%, and the hardness is 101HBW. The performance is superior to that of Example 2, and has the advantages of high strength and good plasticity.

[0061] Table 1 is the mechanical properties of aluminum alloy materials in comparative e...

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Abstract

On one hand, the invention provides a rare earth aluminum alloy material comprising the following components by mass: 6%-8% of Si, 1.5%-4.5% of Cu, 0.2%-0.5% of Mg, 0.3%-0.8% of Mn, 0.2%-0.5% of Re, 0.1%-0.2% of Ti, 0.01%-0.05% of Sr and 80%-89% of Al; the Re is mischmetal containing Ce and La, and the Ti, Si, Ce and La rare earth elements are introduced into aluminum alloy; the castability of thealuminum alloy is improved effectively, and the freezing range and dendrite arm spacing of the alloy are reduced; the rare earth aluminum alloy material is higher in strength and plasticity; the component requirements of the rare earth aluminum alloy material are lower, and high purity Al ingots and expensive Zr, V and Y alloys are not required; the production cost is low, and the rare earth aluminum alloy material is high in industrial value. On the other hand, the invention provides a preparation method of the rare earth aluminum alloy material, and an indirect extrusion casting process isadopted; and the industrial production is achieved, and the preparation method has huge development potential in the fields of lightweight automobiles, intelligent robots, aerospace and the like.

Description

technical field [0001] The invention belongs to the technical field of metal alloys, and in particular relates to a rare earth aluminum alloy material and a preparation method thereof. Background technique [0002] Aluminum alloy is a kind of non-ferrous metal structural material. It has the advantages of low density, high strength, good plasticity, excellent electrical and thermal conductivity, and corrosion resistance. It is widely used in aerospace, automobile manufacturing, 3C products, ships, and chemical industries. With the development trend of lightweight, the demand for aluminum alloy materials is increasing; in the field of automobile manufacturing, the use of aluminum alloy materials for the overall body and accessories is the development direction of automobile lightweight, so the mechanical properties and casting of aluminum alloy materials Performance puts forward higher requirements. [0003] High-strength and tough aluminum alloy materials are mainly two typ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C21/02C22C1/03C22C1/06C22F1/043
CPCC22C21/02C22C1/026C22C1/03C22C1/06C22F1/043C22F1/002
Inventor 李远发樊晓泽徐涛尹伟陈善荣宋卓能张亚琴
Owner KA FUNG IND TECH HUIZHOU CO LTD
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