Mg-Mn wrought magnesium alloy and preparation method thereof

A technology for deforming magnesium alloys and magnesium alloys, applied in the field of metal materials, can solve the problems of alloying element Zr burning, unfavorable development and application, and high price of rare earths, etc., to achieve refined structure, excellent plastic processing performance, strength and toughness Good results

Active Publication Date: 2014-06-25
CHONGQING UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the widely used AZ series magnesium alloys containing Al have excellent room temperature performance, but poor high temperature stability; while the ZK series magnesium alloys containing Zn and Zr have good high temperature stability, but the burning of the alloying element Zr during the smelting process serious damage, resulting in high cost, which is not conducive to further development and application; magnesium alloys containing rare earth elements (RE) have excellent room temperature ductility (Mg-RE binary magnesium alloy) and high service strength (Mg-RE -Zn series magnesium alloy), but because rare earths are expensive, they are mostly used in high-end industries such as military industry, and rare earth resources are getting less and less, and their prices are getting more and more expensive.

Method used

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specific Embodiment

[0019] A new type of Mg-Mn wrought magnesium alloy, its composition content is: Mn0.20~5.00 wt.%, the rest is Mg and unavoidable impurities. (The unit of composition in the table is wt.%). Specific examples are as follows:

[0020]

[0021] 2. The preparation method of the novel Mg-Mn wrought magnesium alloy is as follows.

Embodiment 1

[0023] A method for preparing a Mg-Mn wrought magnesium alloy, comprising the steps of:

[0024] 1. Using magnesium-manganese master alloy (wherein the content ratio of magnesium to manganese is 19:1) and industrial pure magnesium Mg as raw materials, according to the embodiment formula is industrial pure manganese Mn 0.5%, and the balance is industrial pure magnesium Mg, calculate and weigh Two ingredients.

[0025] 2. Under the protection of the covering agent, first smelt the industrial pure magnesium at 720°C to 750°C. After it is completely melted and the temperature rises to 750°C and stabilizes, add the magnesium-manganese master alloy preheated to 150°C, and Add refining agent and stir thoroughly for 3-6 minutes, let the melt stand at 750°C for 20-30 minutes, remove the scum on the surface, and pour it into an iron mold preheated to 250-350°C at 750°C , to prepare a magnesium alloy ingot.

[0026] 3. Cover the prepared magnesium alloy ingot with graphite, homogenize ...

Embodiment 2

[0030] A method for preparing a Mg-Mn wrought magnesium alloy, comprising the steps of:

[0031] 1. Using magnesium-manganese master alloy (wherein, the manganese content is less than 10%) and industrial pure magnesium Mg as raw materials, according to the embodiment formula is industrial pure manganese Mn1.0%, and the balance is industrial pure magnesium Mg, calculate and weigh Take two ingredients.

[0032] 2. Under the protection of the covering agent, first smelt the industrial pure magnesium at 720°C to 750°C. After it is completely melted and the temperature rises to 750°C and stabilizes, add the magnesium-manganese master alloy preheated to 150°C, and Add refining agent and stir thoroughly for 3-6 minutes, let the melt stand at 750°C for 20-30 minutes, remove the scum on the surface, and pour it into an iron mold preheated to 250-350°C at 750°C , to prepare a magnesium alloy ingot.

[0033] 3. Cover the prepared magnesium alloy ingot with graphite, homogenize it at 50...

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Abstract

The invention provides a Mg-Mn wrought magnesium alloy and a preparation method thereof and belongs to the field of magnesium alloy design. The Mg-Mn wrought magnesium alloy comprises the following raw material components in percentage by mass: 0.2-5.0% of industrial pure manganese and the balance of industrial pure magnesium and inevitable impurities. The preparation method comprises the following steps: firstly melting magnesium, then adding magnesium-manganese intermediate alloy, stirring and refining and then pouring into an ingot, subsequently carrying out homogenizing heat treatment on the ingot, and extruding, so that corresponding extruded section is obtained. According to the invention, cheap magnesium manganese intermediate alloy is utilized, novel wrought magnesium alloy with good strength and toughness is prepared, compared with the currently widely used commercial magnesium alloy, the wrought magnesium alloy section is low in cost (compared with AZ31 magnesium alloy, cost can be greatly saved in a Mg-Mn (calculated according to Mn content in 1.0wt%) binary wrought magnesium alloy), heat distortion temperature of the alloy is low, the novel wrought magnesium alloy has excellent moulding and processing performances, and strength and toughness of the novel wrought magnesium alloy are obviously better than those of the traditional commercial AZ31 magnesium alloy.

Description

technical field [0001] The invention relates to the field of metal materials, in particular to a rare-earth-free, low-cost, high-plasticity, high-strength deformable magnesium alloy and a preparation method thereof. [0002] Background technique [0003] With the continuous development of science and technology, the consumption of global resources is increasing, leading to the depletion of non-renewable resources such as oil and coal. Therefore, vigorously developing lightweight structural materials with the goal of reducing energy consumption and carbon emissions has become a hot spot in material science research. Magnesium, with its advantages of low density and large reserves, has gained a lot of attention in the research and development of new materials. Widespread concern. At present, the widely used AZ series magnesium alloys containing Al have excellent room temperature performance, but poor high temperature stability; while the ZK series magnesium alloys containing...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C23/00C22C1/03C22C1/06C22F1/06
Inventor 汤爱涛喻正文潘复生汪琴林翰杨如民张磊许婷熠章建跃
Owner CHONGQING UNIV
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