Preparation method of multifunctional gradient composite ceramic cutting tool material

A technology for tool materials and composite ceramics, which is applied in the field of preparation of multifunctional gradient composite ceramic tool materials, and can solve problems such as poor conductivity, reduced tool life, and damage.

Inactive Publication Date: 2009-09-09
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, Al 2 o 3 The disadvantages of low strength, fracture toughness, thermal conductivity and thermal shock resistance of the base ceramic limit its application range, and it is prone to damage during cutting, resulting in a significant reduction in tool life
Such as Deng Jianxin (Deng Jianxin, Liu Lili, Liu Jianhua, et al. Failure mechanisms of TiB 2 particle and SiC whisker reinforced Al 2 o 3 TiB developed by ceramic cutting tools when machining nickel-based alloys. International Journal of Machine Tools and Manufacturing, 45(2005): 1393-1401) et al. 2 and SiC reinforced Al 2 o 3 Ceramic-based tool materials, when machining nickel-based alloys, have a shorter life due to lower strength and fracture toughness
In addition, the conductivity of ceramic-based tool materials is poor, and there are serious defects in the processing of welding tools, and its application range is limited
The Chinese patent No. 02139711.2 discloses a WC-based (WC-Co) cemented carbide, which is widely used for its good machinability, high strength and fracture toughness, and high thermal conductivity. However, due to the low softening point temperature of the binder metal Co, the tool material will soften prematurely in high-speed cutting
At the same time, the chemical activity of Co is high, and it is very easy to react with other elements at high temperature, resulting in serious diffusion of the tool.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] The material components of the double-layer multifunctional gradient composite ceramic tool are: micron WC (0.4 μm) + nanometer ZrO 2 (0.04μm)+nano Al 2 o 3 (80nm) / WC(0.4μm)+micron Mo(2μm), the content of each component in the WC-based nanocomposite WZA is: 88.3wt% WC, 10%wt ZrO 2 , 1% wt Al 2 o 3 , 0.4wt% VC, 0.3%wt TaC; the content of each component in the cemented carbide powder WM is: 91.3wt% WC, 8%wt Mo, 0.4wt% VC, 0.3%wtTaC. Polyethylene glycol with a molecular weight of 3000 is used as a dispersant, and deionized water is used as a dispersion medium to prepare an aqueous solution containing 0.25 wt% of polyethylene glycol; Add the powder into the solution to form a 0.3% suspension, and disperse it on an ultrasonic dispersion mixer for 10 to 20 minutes. 2 and nano Al 2 o 3 Put the powder into the prepared suspension and ultrasonically stir and disperse for 30 to 50 minutes, then pour the WC powder into it and ultrasonically disperse and stir for 20 minutes,...

Embodiment 2

[0019] The material composition of the double-layer multifunctional gradient composite ceramic tool is: micron WC (0.4 μm) + nanometer ZrO 2(0.04μm)+nano Al 2 o 3 (80nm) / WC(0.4μm)+micron Mo(2μm), the content of each component in the WC-based nanocomposite WZA is: 92.3wt%WC, 6%wtZrO 2 , 1%wtAl 2 o 3 , 0.4wt% VC, 0.3%wt TaC; the content of each component in the cemented carbide powder WM is: 91.3wt% WC, 10%wt Mo, 0.4wt% VC, 0.3%wt TaC. Using polyethylene glycol with a molecular weight of 4000 as a dispersant and deionized water as a dispersion medium, an aqueous solution containing 0.25 wt % of polyethylene glycol was prepared; the mixing, stirring, dispersing and drying of the powder were the same as in Example 1. In a high-purity nitrogen protection environment, the material is prepared by a hot-pressing sintering process with staged heating and uniform pressure. In the range of sintering temperature from room temperature to 1450°C, the heating rate is 70-80°C / min, the si...

Embodiment 3

[0022] The three-layer multifunctional gradient composite ceramic tool material components are: micron WC (0.4 μm) + nanometer ZrO 2 (0.04μm)+nano Al 2 o 3 (80nm) / WC(0.4μm)+micron Mo(2μm) / micron WC(0.4μm)+nano ZrO 2 (0.04μm)+nano Al 2 o 3 (80nm). The content of each component of WC nanocomposite powder WZA in the three-layer multifunctional gradient composite ceramic tool material is: 88.3wt% WC, 10%wt ZrO 2 , 1%wtAl 2 o 3 , 0.4wt% VC, 0.3%wt TaC; the content of each component in the cemented carbide powder WM is: 91.3wt% WC, 8% wtMo, 0.4wt% VC, 0.3% wtTaC. Using polyethylene glycol with a molecular weight of 5000 as a dispersant and deionized water as a dispersion medium, an aqueous solution containing 0.30 wt% polyethylene glycol was prepared; the mixing, stirring, dispersing and drying of the powder were the same as in Example 1. In a high-purity nitrogen protection environment, the material is prepared by a hot-pressing sintering process with staged heating and uni...

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Abstract

The invention belongs to the field of mechanical manufacturing, more particularly relates to a preparation method of a multifunctional gradient composite ceramic cutting tool material. The method takes hard alloy with high strength, high tenacity and high elastic modulus as reinforced materials, wherein an upper layer is WC-based nano composite powders including WC, ZrO2 and Al2O3 (WZA), and a bottom layer is hard alloy powders including WC and Mo(WM); or the upper layer and the lower layer are WC-based nano composite powders (WZA), and a middle layer is hard alloy powders(WM); and the reinforced materials are hot-pressed and sintered at the atmosphere of nitrogen. The flexural strength, the fracture toughness property, the wear-resisting property, and the like of the cutting tool material are improved by utilizing the high hardness, the high chemical stability and the high wearing-resisting property of the WC-based nano composite material and the high strength and the high fracture toughness of the hard alloy. Compared with the general hard alloy cutting tool, the hardness of the multifunctional gradient composite ceramic cutting tool material is improved by 15-20 percent; and compared with the ceramic cutting tool, the flexural strength and the fracture toughness of the multifunctional gradient composite ceramic cutting tool material are respectively improved by 30-40 percent and 25-40 percent.

Description

technical field [0001] The invention belongs to the field of mechanical manufacturing, in particular to a preparation method of a multifunctional gradient composite ceramic tool material. Background technique [0002] Among the current tool materials, new nanocomposite tool materials, especially ceramic-based nanocomposite tool materials, are widely used in high-speed cutting due to their unique properties such as high hardness, wear resistance, high temperature resistance and good chemical stability. fields are widely used. The Chinese patent No. 89108322.7 discloses a ZrO 2 Reinforced Al 2 o 3 The matrix composite ceramic material has good chemical stability. In addition, since Al 2 o 3 The solubility in iron is only 1 / 5 of that of WC in iron, and it is not easy to bond and diffuse with iron-based workpiece materials during processing. Therefore, it has a strong advantage in processing cast iron workpiece materials. However, Al 2 o 3 The disadvantages of low stren...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/56C04B35/622
Inventor 杨发展赵军宋清华艾兴
Owner SHANDONG UNIV
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