Preparation method of antirust powder metallurgy material

A powder metallurgy and iron powder technology, applied in the field of preparation of anti-rust powder metallurgy materials, can solve the problems of energy waste, production efficiency, low tensile strength and hardness, and many process steps, and achieve enhanced anti-corrosion, excellent mechanical properties, The effect of enhancing tensile strength

Inactive Publication Date: 2019-08-27
南京斯庄森金属材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

At present, powder metallurgy materials with iron powder as the main component are the most widely used and the most widely used. However, the existing powder metallurgy formulations and processes still have limitations, and the many process steps lead to waste of energy and low production efficiency. , the product also has the problem of low tensile strength and hardness. At the same time, with the continuous development of industry, the performance requirements for this type of material are getting higher and higher. Not only powder metallurgy materials with excellent physical properties are required, but also To further improve the chemical properties of the material, one important aspect is the corrosion resistance and anti-rust performance of the material, so further research and development of products that meet the requirements are required

Method used

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  • Preparation method of antirust powder metallurgy material

Examples

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Comparison scheme
Effect test

Embodiment 1

[0019] A method for preparing an antirust powder metallurgy material, comprising the following steps:

[0020] Step 1, stirring and mixing 10 parts of copper powder, 10 parts of iron powder, 2 parts of zinc powder, 3 parts of glass fiber and 2 parts of carbon powder in a mixing device to obtain a mixture 1;

[0021] Step 2, add 1 part of aluminum oxide, 2 parts of epoxy resin, 1 part of calcium oxide, 2 parts of lecithin and 1 part of 3-acrylamidopropyl dimethyl ammonium chloride in the mixture one, and the vacuum degree is Heating to 80°C under a vacuum condition of 0.02MPa and keeping it for 20 minutes to obtain the mixture 2;

[0022] Step 3, mixing the mixture 1 and the mixture 2, and grinding and mixing by a ball mill, the grinding and mixing time is 20-30 minutes, and the particle size of the mixture 3 after grinding is below 200 μm, and the mixture 3 is obtained;

[0023] Step 4, pressing the mixture three in a mold to obtain a blank;

[0024] Step 5: Send the billet ...

Embodiment 2

[0027] A method for preparing an antirust powder metallurgy material, comprising the following steps:

[0028] Step 1, stirring and mixing 13 parts of copper powder, 14 parts of iron powder, 3 parts of zinc powder, 5 parts of glass fiber and 4 parts of carbon powder in a mixing device to obtain a mixture 1;

[0029] Step 2, add 2 parts of aluminum oxide, 5 parts of epoxy resin, 2 parts of calcium oxide, 3 parts of lecithin and 2 parts of 3-acrylamidopropyl dimethyl ammonium chloride in the mixture one, in vacuum degree is Heating to 86°C under a vacuum condition of 0.03MPa, and keeping it for 30 minutes, to obtain the mixture 2;

[0030] Step 3, mixing the mixture 1 and the mixture 2, and grinding and mixing by a ball mill, the grinding and mixing time is 25 minutes, and the particle size of the mixture 3 after grinding is 200 μm or less, and the mixture 3 is obtained;

[0031] Step 4, pressing the mixture three in a mold to obtain a blank;

[0032] Step 5: Send the billet i...

Embodiment 3

[0035] A method for preparing an antirust powder metallurgy material, comprising the following steps:

[0036] Step 1, stirring and mixing 17 parts of copper powder, 14 parts of iron powder, 4 parts of zinc powder, 6 parts of glass fiber and 4 parts of carbon powder in a mixing device to obtain a mixture 1;

[0037] Step 2, add 2 parts of aluminum oxide, 6 parts of epoxy resin, 2 parts of calcium oxide, 4 parts of lecithin and 3 parts of 3-acrylamidopropyl dimethyl ammonium chloride in the mixture one, in vacuum degree is Heating to 95°C under a vacuum condition of 0.04MPa and keeping it for 36 minutes to obtain the mixture 2;

[0038] Step 3, mixing the mixture 1 and the mixture 2, and grinding and mixing by a ball mill, the grinding and mixing time is 28 minutes, and the particle size of the mixture 3 after grinding is 200 μm or less, and the mixture 3 is obtained;

[0039] Step 4, pressing the mixture three in a mold to obtain a blank;

[0040] Step 5: Send the billet int...

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Abstract

The invention discloses a preparation method of an antirust powder metallurgy material. The preparation method comprises the following steps that firstly, copper powder, iron powder, zinc powder, glass fibers and carbon powder are stirred and mixed in a mixing device so as to obtain a mixture I; then aluminum oxide, epoxy resin, calcium oxide, lecithin and 3-acrylamide-based propyl dimethyl ammonium chloride are added into the mixture I, heating is carried out under a vacuum condition, and heat preservation is carried out for certain time to obtain a mixture II; then the mixture I and the mixture II are mixed, and grinding and mixing are carried out by using a ball mill to obtain a mixture III; the mixture III is pressed in a mold to obtain a blank material; and finally, the blank materialis fed into a sintering furnace for sintering to obtain the antirust powder metallurgy material. The material obtained by using the preparation method has good mechanical property and corrosion resistance.

Description

technical field [0001] The invention belongs to the field of powder metallurgy, and in particular relates to a preparation method of an antirust powder metallurgy material. Background technique [0002] Powder metallurgy is a process technology for producing metal or using metal powder as raw material, forming and sintering to manufacture metal materials, composite materials and various types of products. Due to the advantages of powder metallurgy technology, it has become the key to solve the problems of new materials and plays a pivotal role in the development of new materials. At present, powder metallurgy materials with iron powder as the main component are the most widely used and the most widely used. However, the existing powder metallurgy formulations and processes still have limitations, and the many process steps lead to waste of energy and low production efficiency. , the product also has the problem of low tensile strength and hardness. At the same time, with th...

Claims

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Application Information

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IPC IPC(8): C22C47/14C22C49/02C22C49/14C22C101/06
CPCC22C47/14C22C49/02C22C49/14
Inventor 张骏
Owner 南京斯庄森金属材料有限公司
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