Method for enhancing high strength cast aluminum alloys by large volume fraction of quasi-crystal

A technology for casting aluminum alloy and high strength, which is applied in the field of large volume fraction quasicrystal reinforced high-strength cast aluminum alloy, can solve the problems of limited material scale, high production cost, limited potential, etc., and achieves the enhancement effect is not diminished, and the enhancement effect is remarkable. , the effect of simple operation

Inactive Publication Date: 2007-05-09
NORTHWESTERN POLYTECHNICAL UNIV
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Problems solved by technology

[0006] (1) The potential of traditional aluminum alloy strengthening technology is very limited, and it is impossible to achieve greater breakthroughs, especially under the conditions of large-scale industrial production
[0007] (2) The strengthening technology under unconventional solidification conditions, especially the rapid solidification technology, can make the performance index of aluminum alloy reach a very attractive level, but due to the limitation of the heat transfer process, the scale of the material that can be prepared is very limited. Only some low-dimensional materials can be prepared, such as thin films, filaments or powders, and it is impossible to manufacture large and medium-sized load-bearing structures
Other methods such as powder metallurgy have strict process requirements and high production costs, making it difficult to produce on a large scale

Method used

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Effect test

Embodiment 1

[0013] This embodiment adopts the quasicrystal strengthening technology of the liquid phase method, that is, the quasicrystal alloy aluminum 15-magnesium 44-zinc 41 with good thermal stability is used as the strengthening alloy, and the aluminum 60-magnesium 40 alloy is used as the base alloy. When the temperature of the body is lowered to 10°C below the quasicrystalline phase transition point, and the temperature of the basic aluminum alloy is lower than the temperature of the quasicrystalline alloy melt by 15°C, the melt mixing technology under electromagnetic stirring conditions is used to combine a large number of quasicrystalline particles. The quasicrystalline alloy melt is added to the basic alloy melt and fully mixed, and a high volume fraction of quasicrystalline particles is introduced into the basic aluminum alloy melt by a liquid phase method. Its specific preparation process is:

[0014] (1) Use a resistance heating furnace to heat and melt the aluminum 15-magnesi...

Embodiment ( 2

[0020] This embodiment adopts the quasicrystal strengthening technology of the liquid phase method, that is, the quasicrystal alloy magnesium 40-zinc 60-yttrium 10 with good thermal stability is used as the strengthening alloy, and the cast aluminum 102 alloy is used as the base alloy. When the temperature is lowered to 20°C below the quasicrystal phase transition point, and the temperature of the basic aluminum alloy is lower than the temperature of the quasicrystal alloy melt by 25°C, the melt mixing technology under the condition of electromagnetic stirring is used to mix the quasicrystal particles with a large number of quasicrystal particles. The alloy melt is added to the basic alloy melt and fully mixed, and a high volume fraction of quasi-crystal particles is introduced into the basic aluminum alloy melt by a liquid phase method. Its specific preparation process is:

[0021] (1) Use a resistance heating furnace to heat and melt the magnesium 40-zinc 60-yttrium 10 quasi...

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Abstract

This invention discloses a method for producing high-strength Al alloy reinforced with high-volume-percentage crystalloid. The method utilizes crystalloid alloy Al15-Mg44-Zn41 or Mg40-Zn60-Y10 as the reinforcing alloy, and cast Al102 or Al60-Mg40 alloy as the matrix. The method controls the pre-crystallization morphologies of the two alloys by liquid quenching. When the crystalloid melt temperature is reduced to 5-25 deg.C below its phase transition point, and the matrix temperature is 10-30 deg.C below crystalloid melt temperature, high-volume-percentage crystalloid is introduced into the matrix melt. During the co-melting process, the temperature difference ensures precipitated crystalloid is not re-molten, thus can realize reinforcement of high-volume-percentage crystalloid micro- or nano-particles to Al alloy matrix. During the re-melting process, the crystalloid particles are not molten. The method is a-effect reinforcement method.

Description

(1) Technical field [0001] The invention relates to the strengthening and preparation technology of high-strength cast aluminum alloys in the field of material research, and is a method for strengthening high-strength cast aluminum alloys with a large volume fraction of quasicrystals. (2) Background technology [0002] In the past ten years, the research on high-strength aluminum alloys can basically be divided into two categories. [0003] The first category is mainly research on strengthening theory and strengthening technology under conventional solidification conditions. This kind of research involves the most extensive scope, and many achievements have been applied in production. Its main means of strengthening include: alloying, heat treatment and microstructure refinement. In the alloying and heat treatment of high-strength aluminum alloys, a large number of researchers have done very systematic and meticulous research work. Most of them are based on the alloy syst...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C21/06B22D27/20
Inventor 杨根仓王锦程刘峰朱满万迪庆程素玲周尧和
Owner NORTHWESTERN POLYTECHNICAL UNIV
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