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Metal alloy composite ceramic board and preparation technology thereof

A composite ceramic plate and metal alloy technology, applied in the field of composite materials, can solve the problems of tensile strength, plasticity, low toughness, etc., and achieve the effects of good thermal shock resistance, enhanced bonding force, and improved wear resistance and toughness.

Active Publication Date: 2017-09-08
洛阳鹏飞耐磨材料股份有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

With the rapid development of science and technology and modern industry, the requirements for wear resistance, toughness, hardness and other properties of materials are getting higher and higher, and the service life of materials has become an important factor affecting production progress and production efficiency; ceramic materials have High melting point, high hardness, high wear resistance, oxidation resistance and other advantages, can be used as structural materials, functional materials such as heat insulation materials; but its tensile strength, plasticity and toughness are low; combining metal and ceramic materials into composite materials, Although the nature of the metal integrates its toughness, stability and strength to enhance the stiffness, strength, creep resistance, wear resistance and other properties of the composite material, this type of composite material still cannot meet people's needs. Therefore, for metal alloys Research on composite ceramics is necessary

Method used

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  • Metal alloy composite ceramic board and preparation technology thereof
  • Metal alloy composite ceramic board and preparation technology thereof

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preparation example Construction

[0045] A preparation process of a metal alloy composite ceramic plate, comprising the following steps:

[0046] Step 1: Take 50-65 parts of alumina particles, 28-43 parts of zirconia particles, 0.5-2 parts of silicon carbide, 0.5-1.95 parts of silicon dioxide, 0.01-0.05 parts of yttrium oxide and 1.5 parts of titanium carbide as the ceramic raw material of the ceramic matrix. -3 parts, they are put into the ball mill and ground for 10-16 hours, and the ceramic raw material components of the ceramic matrix are obtained after mixing evenly, and are set aside; get titanium powder, aluminum powder, zirconium powder, chromium powder, iron powder, magnesium powder, At least two raw materials in the rare earth powder are put into a ball mill and ground for 4-8 hours, and after being mixed evenly, they become the raw material components of the metal alloy body, and then sent to the melting furnace at a melting temperature of 1560-1850°C to be smelted into a semi-solid or liquid metal ...

Embodiment 1

[0070] Such as figure 1 The shown metal alloy composite ceramic board includes several metal alloy composite ceramic board substrates and ceramic connector II wrapping the metal alloy composite ceramic board substrate; the metal alloy composite ceramic board substrate includes ceramic connector I2, ceramic substrate 3 and the metal alloy body 1, the ceramic connecting body I2 is located between the ceramic matrix 3 and the metal alloy body 1, and its preparation process includes the following steps:

[0071] Step 1: Take the ceramic raw materials of the ceramic matrix: 50-65 parts of alumina particles with a particle size of 2-100 nm, 28-43 parts of zirconia particles with a particle size of 2-200 nm, and carbonized particles with a particle size of 0.5-1.5 μm 0.5-2 parts of silicon, 0.5-1.95 parts of nano-particle silicon dioxide, 0.01-0.05 parts of nano-particle yttrium oxide and 1.5-3 parts of titanium carbide with a purity ≥ 99.0%, put them into a ball mill and grind them ...

Embodiment 2

[0088] Such as figure 2 The shown metal alloy composite ceramic plate includes a metal alloy composite ceramic plate base and a ceramic connector II wrapping the metal alloy composite ceramic plate base; the metal alloy composite ceramic plate base includes a ceramic connector I2, a ceramic base 3 and The metal alloy body 1, the ceramic connecting body I2 is located between the ceramic matrix 3 and the metal alloy body 1, and its preparation process includes the following steps:

[0089] Step 1: Take the ceramic raw materials of the ceramic matrix: 62 parts of alumina particles with a particle size of 80 nm, 30 parts of zirconia particles with a particle size of 100 nm, 1.5 parts of silicon carbide with a particle size of 0.5-1.5 μm, and nanoparticles 1.95 parts of silicon, 0.05 parts of nanoparticle yttrium oxide and 2.5 parts of titanium carbide with a purity ≥ 99.0%, put them into a ball mill and grind them for 10-16 hours, and mix them uniformly to obtain the ceramic raw ...

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Abstract

The invention provides a metal alloy composite ceramic board and a preparation technology thereof. The metal alloy composite ceramic board comprises a plurality of metal alloy composite ceramic board base bodies, and ceramic connectors II which wrap the metal alloy composite ceramic board base bodies, wherein each metal alloy composite ceramic board base body comprises a ceramic connector I, a ceramic base body and a metal alloy body; each ceramic connector I is positioned between the corresponding ceramic base body and the corresponding metal alloy body; each ceramic base body and the corresponding ceramic connector I are connected by filling a ceramic connector solution; each metal alloy body comprises at least two types of metal powder; the ceramic connectors I and the ceramic connector II are composed of 75-90 parts by weight of raw ceramic material components of the ceramic base bodies, 0.5-1 part by weight of nickel powder, and 9-24 parts by weight of raw material components of the metal alloy bodies. The metal alloy composite ceramic board has outstanding performance such as relativelyhigh durability, relativelyhigh strength, relativelyhigh hardness and relativelyhigh toughness, so that the ceramic alloy composite ceramic board can be applied to each industry.

Description

technical field [0001] The invention belongs to the field of composite materials, in particular to a metal alloy composite ceramic plate and a preparation process thereof. Background technique [0002] In industrial fields such as building materials, thermal power and metallurgical mines, wear-resistant materials in composite materials account for a considerable proportion of energy and economic cost consumption. In the production process of raw materials such as minerals, cement and coal powder, machinery equipment and parts will be frequently repaired and replaced due to wear and tear. The research on wear-resistant materials has a history of more than 100 years; the research and production process of different types of wear-resistant materials such as high manganese steel, alloy steel, nickel hard cast iron, various white cast iron and high chromium cast iron are in the Continuous improvement. Relatively speaking, the relevant research work on wear-resistant materials a...

Claims

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Application Information

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IPC IPC(8): C04B35/10C04B35/622C04B35/64C04B37/02B22D19/16C22C1/05C22C21/00C22C23/00C22C27/06C22C29/12
CPCB22D19/16C04B35/10C04B35/622C04B35/64C04B37/021C04B2235/3225C04B2235/3244C04B2235/3418C04B2235/3826C04B2235/3843C04B2235/6562C04B2235/6565C04B2235/6567C04B2237/343C04B2237/401C22C1/051C22C21/00C22C21/003C22C23/00C22C27/06C22C29/005C22C29/12
Inventor 贾玉川贾鹏飞
Owner 洛阳鹏飞耐磨材料股份有限公司
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