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A Zirconia and Zirconium Carbide Composite Reinforced Titanium Oxide-Based Multi-element Nanocomposite Ceramic Mold

A composite reinforcement and nanocomposite technology, applied in the field of ceramic mold materials, can solve the problems of nanocomposite performance and price advantage not being fully exerted in the field of molds, and achieve improved mechanical properties and performance, good overall performance, high resistance Effects of aging and defect resistance

Active Publication Date: 2016-09-14
潮州市嘉裕陶瓷制作有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] From the existing research, it can be seen that the performance and price advantages of nanocomposites, especially nanocomposite ceramics, have not been fully utilized in the field of molds.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] A zirconia and zirconia carbide composite reinforced titania-based multi-component nano-composite ceramic mold, the raw materials in parts by weight are: 60 parts of titania, 10 parts of zirconia carbide, 15 parts of zirconia, 2 parts of praseodymium oxide, 4 parts of dysprosium oxide, 2 parts of nickel, 1 part of cobalt, and 1 part of magnesium oxide; all the above-mentioned raw materials are made of nano-scale powder, wherein the particle size of titanium oxide is 10-100 nanometers, and the particle size of zirconium carbide and zirconium oxide is 1-10 nanometers. Other particle sizes are 1-100 nanometers: the preparation method is based on titanium oxide, adding zirconium carbide and zirconium oxide as reinforcing phases, using praseodymium oxide and dysprosium oxide as stabilizers, and using nickel, cobalt and magnesium oxide as sintering The auxiliary agent is made by hot pressing and sintering; the specific preparation steps are as follows:

[0024] Step 1: taking...

Embodiment 2

[0032] A zirconia and zirconium carbide composite reinforced titania-based multi-component nano-composite ceramic mold, the raw materials in parts by weight are: 70 parts of titania, 15 parts of zirconia carbide, 20 parts of zirconia, 4 parts of praseodymium oxide, 6 parts of dysprosium oxide, 3 parts of nickel, 2 parts of cobalt, and 2 parts of magnesium oxide; all the above-mentioned raw materials are made of nano-scale powder, wherein the particle size of titanium oxide is 10-100 nanometers, and the particle size of zirconium carbide and zirconium oxide is 1-10 nanometers. Other particle sizes are 1-100 nanometers; the preparation method is based on titanium oxide, adding zirconium carbide and zirconium oxide as reinforcing phases, using praseodymium oxide and dysprosium oxide as stabilizers, and using nickel, cobalt and magnesium oxide as sintering The auxiliary agent is made by hot pressing and sintering; the specific preparation steps are as follows:

[0033] Step 1: tak...

Embodiment 3

[0041] A zirconia and zirconia carbide composite reinforced titania-based multi-component nano-composite ceramic mold, the raw materials in parts by weight are: 80 parts of titania, 20 parts of zirconia carbide, 25 parts of zirconia, 6 parts of praseodymium oxide, 8 parts of dysprosium oxide, 4 parts of nickel, 3 parts of cobalt, and 3 parts of magnesium oxide; all the above-mentioned raw materials are made of nano-scale powder, wherein the particle size of titanium oxide is 10-100 nanometers, and the particle size of zirconium carbide and zirconium oxide is 1-10 nanometers. Other particle sizes are 1-100 nanometers; the preparation method is based on titanium oxide, adding zirconium carbide and zirconium oxide as reinforcing phases, using praseodymium oxide and dysprosium oxide as stabilizers, and using nickel, cobalt and magnesium oxide as sintering The auxiliary agent is made by hot pressing and sintering; the specific preparation steps are as follows:

[0042] Step 1: taki...

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PUM

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Abstract

The invention discloses a zirconium oxide and zirconium carbide composite reinforced titanium oxide-based multi-element nano-composite ceramic die. The die comprises the following raw materials in parts by weight: 60-80 parts of titanium oxide, 10-20 parts of zirconium carbide, 15-25 parts of zirconium oxide, 2-6 parts of praseodymium oxide, 4-8 parts of dysprosium oxide, 2-4 parts of nickel, 1-3 parts of cobalt and 1-3 parts of magnesium oxide, wherein nanoscale powder of all the raw materials is adopted; the grain size of titanium oxide is 10-100 nanometers; the grain sizes of zirconium carbide and zirconium oxide are 1-10 nanometers; the grain sizes of the other raw materials are 1-100 nanometers. A preparation method is characterized by using titanium oxide as the matrix, adding zirconium carbide and zirconium oxide as reinforcing phases, praseodymium oxide and dysprosium oxide as stabilizing agents and nickel, cobalt and magnesium oxide as sintering aids and carrying out hot pressed sintering on the materials, thus preparing the die. The die has strong ageing and defect resistance, good comprehensive mechanical properties and excellent antifriction and wear resistance properties.

Description

technical field [0001] The invention relates to a ceramic mold material, in particular to a zirconia and zirconium carbide composite reinforced titanium oxide-based multi-element nanocomposite ceramic mold. Background technique [0002] Ceramic cutting tools have high hardness and wear resistance, and exhibit excellent cutting performance in high-speed cutting and dry cutting, and are a class of cutting tool materials with great development prospects. However, most of the currently used ceramic tool materials are limited to micro-composite ceramics, and the mechanical properties of the materials, especially the strength and toughness, still need to be further improved. According to the Hall-petch relationship: the smaller the grain size, the higher the strength of the ceramic material. Therefore, the research and development of nano-modified and nano-micro composite ceramic tool materials will be one of the main directions for the development of tool materials in the future...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/49C04B35/622
Inventor 韩巧李孝君
Owner 潮州市嘉裕陶瓷制作有限公司