Method for preparing SiC particle reinforced foamed aluminium radical composite material

A composite material and particle reinforcement technology, which is applied in the field of preparation of SiC particle reinforced foamed aluminum matrix composite materials, can solve the problems of easy formation of microscopic voids between crystallites, difficult compounding, poor stirring, etc., and achieves elimination of solidification defects and uniform pore structure. , the effect of enhancing strength

Inactive Publication Date: 2008-03-12
SHANGHAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although this method is simple and easy to implement, the whole stirring process not only wastes heat energy by exposing the aluminum liquid to the air, but also the stirring paddle is easily corroded in the high-temperature aluminum alloy melt, making the stirring weak; Will cause high cost and low efficiency of production
[0004] In the range of 600-800°C, the contact angle θ between SiC particles and aluminum liquid is about 120°, indicating that the wett

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Embodiment 1: take magnesium accounting for 1.5% of the total mass fraction of the alloy, silicon accounting for 6.5% of the total alloy mass fraction and aluminum in the balance, heat to melt and keep warm at 700°C to make the temperature uniform and stable, then add pretreatment The SiC particles accounting for 10% of the total mass fraction of the alloy are added to the aluminum alloy melt, and electromagnetically stirred. After the SiC particles are fully mixed in the aluminum alloy melt, a foaming agent accounting for 1.5% of the total alloy mass fraction is added for electromagnetic stirring. Stir to make the foaming agent mix evenly in the aluminum alloy melt. After the foaming agent is evenly mixed, place the crucible in a holding furnace at 680°C for 3 minutes to keep the foaming agent foaming. After the growth of the aluminum melt is stable, simultaneous cooling in all directions is used to cool and solidify the foam of the aluminum alloy melt to obtain a SiC p...

Embodiment 2

[0021] Embodiment 2: Take magnesium accounting for 2.8% of the total mass fraction of the alloy, silicon accounting for 7.5% of the total alloy mass fraction and aluminum in the balance, heat to melt and keep warm at 680°C to make the temperature uniform and stable, then add pretreatment The SiC particles accounting for 15% of the total mass fraction of the alloy are added to the aluminum alloy melt, and electromagnetically stirred. After the SiC particles are fully mixed in the aluminum alloy melt, a foaming agent accounting for 2.5% of the total alloy mass fraction is added for electromagnetic Stir to make the foaming agent mix evenly in the aluminum alloy melt. After the foaming agent is evenly mixed, place the crucible in a holding furnace at 650°C for 5 minutes to keep the foaming agent foaming. After the growth of the aluminum melt is stable, simultaneous cooling in all directions is used to cool and solidify the foam of the aluminum alloy melt to obtain a SiC particle re...

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Abstract

The invention relates to a preparing method for a SiC particle reinforced foam aluminum based composite, which comprises the following procedures: taking by mass among the total alloy amount 1-3% Mg, 6-8% Si and remainder Al, heating 10-20% SiC particles to melt into molten aluminum alloy, carrying out electromagnetic agitating evenly; adding 1-3% foaming agent by mass, after agitating evenly the foaming agent, keeping temperature and foaming 3-5 minutes; cooling after the molten aluminum grows steadily so as to cool and solidify the molten aluminum alloy foam, then getting SiC particle reinforced foam aluminum based composite with even hole structure and high porosity. The method adds molten aluminum alloy SiCp, which on one hand increases the viscosity of the molten alloy so as to prevent the bubbles dissolved from the foaming agent from floating upward and prolong the lives of the bubbles, on another hand, SiCp can also improve the strength of the foam aluminum. These bubbles take SiCp as a core and grow, then are cooled concurrently in all directions, this can overcome any shortcoming in solidifying and get foam aluminum of high porosity and even hole structure. By using electromagnetic agitating, the burning loss in the agitating blade can be avoided, this is useful for controlling the chemical components of the alloy.

Description

technical field [0001] The invention relates to a preparation method of SiC particle reinforced foamed aluminum-based composite material. Background technique [0002] Aluminum foam has both porous structure and metal characteristics, and has become one of the research hotspots in the field of materials due to its excellent physical properties, chemical properties, mechanical properties, multi-functional compatibility and its recyclability. Particle-reinforced metal matrix composites are also a new type of metal material developed in recent years, with high specific strength, specific stiffness, elastic modulus, wear resistance and low thermal expansion coefficient and other excellent properties. If the two are combined into a SiC particle-reinforced aluminum foam matrix composite material, which has the advantages of both materials, it will have a broader application prospect. [0003] Most of the existing stirring methods in the preparation process of SiC particle reinfor...

Claims

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Application Information

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IPC IPC(8): C22C1/08C22C21/02
Inventor 程申涛叶晓苏周星刘宏葆李重河毛协民
Owner SHANGHAI UNIV
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