Preparation method of hard alloy or metal ceramic

A cermet and cemented carbide technology, which is applied in the field of preparation of cemented carbide or cermet, can solve the problems of poor formability of mixtures, unsuitable for cemented carbide powder grinding, large impact kinetic energy, etc.

Pending Publication Date: 2021-09-14
ZIGONG CEMENTED CARBIDE CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the high density of WC-Co cemented carbide grinding body (generally greater than 14.5g/cm 3 ), single weight, large impact kinetic energy during grinding, which will lead to great processing strain of WC and other powders, which will lead to serious lattice distortion of WC grains, significantly increase intragranular defects, and affect the performance of the final alloy
[0003] Especially when preparing coarse-grained or ultra-coarse-grained cemented carbide mixtures, excessive impact kinetic energy can easily break the coarse WC single crystal in the raw material powder, destroy the integrity of WC grains, induce processing strain, and ultimately lead to failure Coarse-grained or ultra-coarse-grained alloys with complete crystal form and few defects in the crystal can be obtained; when preparing fine-grained or ultra-fine-grained cemented carbide mixtures, due to the long grinding time required, the grinding kinetic energy is large, and the powder processing strain is serious. It will lead to poor formability of the mixture and high sintering activity, which will lead to serious abnormal grain growth and eventually affect the properties of the alloy.
At the same time, since the preparation of fine-grained or ultra-fine-grained hard alloys needs to add a small amount (usually 5-15% of ...

Method used

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  • Preparation method of hard alloy or metal ceramic
  • Preparation method of hard alloy or metal ceramic
  • Preparation method of hard alloy or metal ceramic

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] Put 940g of WC powder (Fischer particle size of 0.59μm) and 60g of Co powder (Fischer particle size of 0.93μm) into a 1L experimental ball mill cylinder for wet grinding, using 3.5KgΦ6mm WC-20TiC-13Co (density 10.3g / cm 3 , hardness 89.5HRa) alloy balls were used as grinding bodies, and dried after ball milling for 64 hours to obtain WC-6wt% Co alloy mixture. Then, the WC-15wt% Co alloy mixture was prepared by using the same grinding parameters as in Example 1 by controlling the grinding time and feed ratio.

Embodiment 2

[0032] Put 940g of WC powder (Fischer particle size of 2.2μm) and 60g of Co powder (Fisher particle size of 1.3μm) into a 1L experimental ball mill for wet grinding, using 4.3KgΦ6mm WC-7TiC-1TaC-9Co (density 12.8g / cm 3 , hardness 93.8HRa) alloy balls were used as grinding bodies, and dried after ball milling for 64 hours to obtain a mixture.

Embodiment 3

[0039] Put 850g of WC powder (Fischer particle size of 28.9μm) and 150g of Co powder (Fischer particle size of 1.3μm) into a 1L experimental ball mill cylinder for wet grinding, using 2.0KgΦ6mm Ti(C,N)-35(W,Ti ,Nb)C-10Co-5Ni (density 7.0g / cm 3 , hardness 90.7HRa) alloy balls were used as grinding bodies, and dried to obtain a mixture after ball milling for 24 hours.

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Abstract

The invention provides a preparation method of hard alloy or metal ceramic. The method comprises the steps that grinding is conducted by means of a grinding body, a density of the grinding body is 5 g/cm<3> to 13 g/cm<3>, and a hardness of the grinding body is 84 HRa to94 HRa. The hard alloy with the density being 5 g/cm<3> to 13 g/cm<3> and the hardness being 84 HRa to 94 HRa is used as the grinding body, the density is small, grinding kinetic energy in a grinding process is small, impact kinetic energy in the grinding process is reduced, flexible grinding and efficient mixing of materials can be achieved, machining strain and lattice distortion of powder can be relieved, subgrain defects are reduced, a complete shape of hard alloy grains is kept, mixture quality is improved, and alloy performance is improved.

Description

technical field [0001] The invention relates to the technical field of hard alloy manufacturing, in particular to a method for preparing hard alloy or cermet. Background technique [0002] Cemented carbide or cermet is usually prepared by powder metallurgy process, including the basic process of mixture preparation, press molding, sintering and so on. The preparation of the mixture is the process of putting WC, Co, Ti(C,N) and other component powders into the grinder and using the grinding body for grinding and mixing. A reasonable grinding process is the key to preparing a mixture with good forming and sintering properties, and it is also the main determinant of the final structure and properties of the alloy. Now the use of WC-Co cemented carbide as the grinding body has become the standard for the preparation of cemented carbide mixtures, and high hardness, wear-resistant fine grains or ultrafine grains with low Co content (6wt%-8wt%) should be selected To avoid excessi...

Claims

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Application Information

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IPC IPC(8): B22F9/04C22C29/08
CPCB22F9/04C22C29/08C22C29/067B22F2009/043
Inventor 王晓灵雍薇刘益兴彭晖
Owner ZIGONG CEMENTED CARBIDE CORP
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