Method for preparing silicon nitride reinforced aluminium-based composite material

A composite material and a technology for reinforcing aluminum matrix, which is applied in the field of preparation of aluminum matrix composite materials, can solve the problems of high fiber price, poor wettability, discontinuous fiber phase, etc., and achieve excellent mechanical properties and prevent the effect of crack propagation.

Inactive Publication Date: 2010-06-02
XI AN JIAOTONG UNIV
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Problems solved by technology

[0011] In summary, the existing problems in the preparation of fiber reinforced aluminum matrix composites are: 1. Due to the high price of fibers and their toxicity to the human body, they cannot be used in parts normally
2. The fiber phase in most composite materials is discontinuous
3. Poor wettability between ceramic preform and molten metal liquid

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  • Method for preparing silicon nitride reinforced aluminium-based composite material
  • Method for preparing silicon nitride reinforced aluminium-based composite material
  • Method for preparing silicon nitride reinforced aluminium-based composite material

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Embodiment Construction

[0029] The present invention will be further described in detail below in conjunction with specific examples.

[0030] A method for preparing a silicon nitride reinforced aluminum-based composite material, comprising the steps of:

[0031] (1) Weighing respectively according to the composition examples in Table 1, wherein the mass ratio of silicon oxide powder to carbon black is 2 to 3, prepared into mixed powder after wet ball milling and drying,

[0032] (2) Sieve the mixed powder to make a granulate and put it into the mold cavity, and mold it into blanks of different components;

[0033] (3) The blanks of different components were heated up to 1750 °C under the conditions of nitrogen flow rate of 3 L / min, nitrogen pressure of 6 atmospheres, and heating rate of 4 °C / min, and held for 2 hours to obtain different components. Porous silicon nitride sintered body (preform).

[0034] (4) After assembling the various parts of the die-casting machine, put the porous silicon nitr...

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Abstract

The invention discloses a method for preparing a silicon nitride reinforced aluminium-based composite material, which comprises the following steps: performing wet ball milling and drying on 60 to 67.5 weight percent of silicon oxide, 22.5 to 30 weight percent of carbon black, 1 to 10 weight percent of alpha-Si3N4 seed crystal, and 1 to 10 weight percent of Y2O3 to prepare mixed powder, sieving and granulating the mixed powder, and forming a blank piece through mold pressing; heating the blank piece to 1,750DEG C under the condition that the nitrogen pressure is six times of atmospheric pressure, preserving heat for 2 hours, and sintering to obtain a porous silicon nitride prefabricated body of which the relative density is between 20 and 30 percent; putting the porous silicon nitride sintered body in a die cavity of a die casting machine, and heating the die cavity to the temperature of between 500 and 700 DEG C, or firstly separately preheating the sintered body to the temperature of between 500 and 700 DEG C and then putting the preheated sintered body to the die cavity of the die casting machine; simultaneously, heating aluminium alloy to a melting state, pouring the molten aluminium alloy into the die cavity in which the prefabricated body is arranged, and pressing the molten aluminium alloy into the porous silicon nitride prefabricated body through a press machine; and finally, taking an ingot out after cooling, and performing heat treatment to obtain the silicon nitride reinforced aluminium-based composite material.

Description

technical field [0001] The invention relates to a method for preparing an aluminum-based composite material, in particular to a method for preparing a silicon nitride-reinforced aluminum-based composite material. Background technique [0002] Fiber-reinforced aluminum matrix composites are known for their high specific strength, specific stiffness, axial tensile strength and wear resistance, excellent high temperature resistance and low thermal expansion coefficient, good electrical conductivity, thermal conductivity, fatigue resistance and humidity or With the advantages of good dimensional stability in radiation environment, it has been used as a high-strength and high-temperature resistant material in the fields of aerospace, automobile, mechanical electronics, etc., showing great application potential. The fiber content in fiber-reinforced aluminum matrix composites is generally 10-30vol%, which can reflect the excellent properties of the metal. The main manufacturing me...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C47/08C22C49/06C22C101/18
Inventor 杨建锋鲁元陆伟忠刘荣臻乔冠军鲍崇高李春芳
Owner XI AN JIAOTONG UNIV
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