Method for improving distribution of SiC particles in magnesium matrix composite material under action of low-voltage pulse magnetic field

A low-voltage pulse, composite material technology is applied in the field of improving the distribution of SiC particles in magnesium-based composite materials, which can solve the problems of less research, and achieve the effects of simple process, convenient operation, and low cost and investment.

Inactive Publication Date: 2014-07-16
NANCHANG HANGKONG UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

At present, there have been some achievements in the field of pulsed magnetic fields in the field of alloys, but there are still very few studies on compo

Method used

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  • Method for improving distribution of SiC particles in magnesium matrix composite material under action of low-voltage pulse magnetic field
  • Method for improving distribution of SiC particles in magnesium matrix composite material under action of low-voltage pulse magnetic field
  • Method for improving distribution of SiC particles in magnesium matrix composite material under action of low-voltage pulse magnetic field

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0044] First, SiC particles are added to the magnesium alloy melt, stirred evenly, and then the alloy melt is poured into the mold placed in the pulse magnetic field solidification device, so that the composite material melt is completely solidified under the action of the pulse magnetic field; wherein, the magnetic field voltage is 150V, the frequency is 2.5Hz, the pouring temperature of the melt is 680°C, and the mold preheating temperature is 200°C.

Embodiment 2

[0046] First, SiC particles are added to the magnesium alloy melt, stirred evenly, and then the alloy melt is poured into the mold placed in the pulse magnetic field solidification device, so that the composite material melt is completely solidified under the action of the pulse magnetic field; wherein, the magnetic field voltage is 200V, the frequency is 5Hz, the pouring temperature of the melt is 620°C, and the mold preheating temperature is 600°C.

Embodiment 3

[0048] First, SiC particles are added to the magnesium alloy melt, stirred evenly, and then the alloy melt is poured into the mold placed in the pulse magnetic field solidification device, so that the composite material melt is completely solidified under the action of the pulse magnetic field; wherein, the magnetic field voltage is 250V, the frequency is 10Hz, the pouring temperature of the melt is 650°C, and the mold preheating temperature is 400°C.

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Abstract

The invention discloses a method for improving distribution of SiC particles in a magnesium matrix composite material under the action of a low-voltage pulse magnetic field. The method comprises the following steps: firstly adding the SiC particles into a magnesium alloy fusant, uniformly stirring, and then pouring the alloy fusant into a die of a pulse magnetic field coagulation device so that the composite material fusant is completely concreted under the action of the low-voltage pulse magnetic field. The method is environmentally friendly, simple in process, convenient to operate, easy to control and less in cost and investment. By utilizing the method, only the intensity of the pulse magnetic field and the coagulation rate of the alloy need to be controlled. By utilizing the method, pollution does not exist, and the pulse magnetic field is not directly contacted with the alloy fusant so as not to generate pollution on the fusant and generate pollution on the environment.

Description

technical field [0001] The invention relates to a method for improving the distribution of SiC particles in a magnesium-based composite material, in particular to a method for improving the distribution of SiC particles in a magnesium-based composite material under the action of a low-voltage pulsed magnetic field. Background technique [0002] Magnesium-based composites have the advantages of good shock absorption and noise reduction performance, electromagnetic shielding performance, machining performance and good mechanical properties. SiC particles have good wear resistance, dimensional stability, thermal shock resistance and high hardness, and the particle-reinforced composite materials are anisotropic. Among many magnesium-based composite materials, SiC magnesium-based composite materials have good comprehensive mechanical properties. The main reason is that SiC particles have good physical and chemical properties, combined with the high hardness, wear resistance and s...

Claims

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Application Information

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IPC IPC(8): C22C1/10B22D27/02
Inventor 陈乐平刘勇周全
Owner NANCHANG HANGKONG UNIVERSITY
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