CN112552776A - Hard alloy sintering anti-sticking coating and preparation method and application thereof - Google Patents

Abstract

The invention provides a hard alloy sintering anti-sticking coating and a preparation method and application thereof, wherein the anti-sticking coating is formed by mixing solid isolation powder and a liquid adhesive, and the solid isolation powder comprises the following components in parts by weight: 22-40 parts of zirconium oxide, 5-8 parts of cerium oxide, 3-6 parts of magnesium oxide, 13-26 parts of flake graphite and 14-27 parts of fine carbon black; the liquid adhesive comprises the following components in parts by weight: 80-120 parts of water-soluble modified phenolic resin, 1.0-3.0 parts of thickening agent, 3-6 parts of dispersing agent, 4-8 parts of active agent, 1-5 parts of curing agent, 0.5-1.0 part of defoaming agent and 80-120 parts of diluent; the mass ratio of the solid isolation powder to the liquid adhesive is 1: (2.0-3.0). The coating has high bonding strength and hardness after being coated, and is not easy to fall off and fall off during alloy product placement and transportation and charging; the paint still keeps higher hardness and bonding strength after sintering, and alloy carburization does not occur.

Description

Hard alloy sintering anti-sticking coating and preparation method and application thereof

Technical Field

The invention relates to the technical field of metal ceramic and hard alloy manufacturing, in particular to a hard alloy sintering anti-sticking coating and a preparation method and application thereof.

Background

Sintering is one of the important processes in the production of cemented carbide, and the anti-sticking coating on the graphite boat or graphite plate is an important factor influencing the quality of cemented carbide products. At present, the following hard alloy sintering anti-sticking coatings are mainly used in China.

1: plasma sprayed zirconia and rare earth stabilizer coating

When the numerical control blade, the superfine crystal grain hard alloy extrusion bar and the multi-component alloy material are sintered, a stable atmosphere environment needs to be kept in a vacuum-pressure furnace during sintering, the interference of a coating layer on the quality of a hard alloy product is reduced, and metal oxides such as aluminum oxide diffuse on the surface of the alloy, and a plasma spraying method is generally adopted to prepare the sintering anti-sticking coating.

The coating prepared by the method has the advantages that: the spraying layer does not contain PEG, Tween, cellulose and other organic matters, and the interference of carbon, aluminum and sulfur atmosphere on the hard alloy is eliminated in the sintering process of the carbon black and the flake graphite. The performance of the sintered product is not only stable, but also the performance is kept at a high level. The melting point of the zirconium oxide is 2800 ℃, the high-temperature performance is very stable, and the zirconium oxide component is not detected on the surface of the sintered hard alloy in the energy spectrum analysis of the surface of the sintered hard alloy.

The disadvantages are that: the processing cost is high, 4000-6000 yuan is needed per square meter, and a common hard alloy manufacturer cannot bear the high cost of thermal spraying. In addition, when high-cobalt hard alloy and alloy products with large single weight are sintered, the contact surfaces of the hard alloy and the graphite plate are bonded together due to the precipitation of liquid-phase cobalt, so that the zirconia coating is damaged, and the service life of the zirconia coating is seriously shortened. The coating plate manufactured by adopting thermal spraying of zirconia needs to be taken down one piece of alloy product after being sintered out of a furnace, which is time-consuming and labor-consuming, and the method is not suitable for sintering common hard alloy products.

2: the adhesive adopts PEG, Tween and deionized water, and the solid isolating layer adopts the coating of alumina, fine carbon black and coarse carbon black

Most of domestic hard alloy manufacturers always adopt the anti-sticking coating, but because the viscosity of the adhesives PEG and Tween in the anti-sticking coating is low, a large amount of PEG and Tween have to be added in order to improve the viscosity strength of the anti-sticking coating, so that the pollution atmosphere in a furnace is improved, and the quality of the alloy is influenced.

Before sintering, the anti-sticking coating is easy to fall off in alloy product placement and transportation or furnace charging; after sintering, the anti-sticking coating is loose, the coating and the alloy are easily mixed together, and troubles are caused to the cleaning and finishing of alloy products. When the high cobalt alloy is sintered, the coating layer needs to be brushed for 2 times, or anti-sticking paper is added; excessive organic matters volatilize in the sintering process, so that the atmosphere in the furnace is polluted, and the stability of alloy products and the quality of the alloy are influenced. When sintering larger alloy products or high cobalt alloy, the graphite plate is easy to contact, and the products are carburized. The paint has low liquid viscosity, poor capability of suspending solid isolating layer, uneven distribution of solid powder in the paint, uneven painting of the paint layer, short storage time and easy drying into blocks.

3: the adhesive is water soluble cellulose, PEG, Tween and deionized water, and the solid isolating layer is made of paint containing alumina, fine carbon black and coarse carbon black

The viscosity of the anti-sticking coating is higher than that of PEG, so that the problem that the coating falls off when an alloy product is placed and transported before the coating is sintered is solved due to the increase of the viscosity; after sintering, the problem of mixing the coating with the alloy article is also reduced. However, it has disadvantages in that: (1) cellulose, PEG and Tween are all organic matters, the organic matters in the coating layer are completely volatilized after high-temperature sintering, and the hardness and the strength of the coating layer are lost and are still not ideal; (2) the large alloy product and the high cobalt alloy product are easy to contact with the graphite plate, and the alloy is carburized; (3) performing energy spectrum analysis on the surface of the sintered hard alloy, wherein the alloy contains 20-30% of aluminum element, and the source of the aluminum element is caused by aluminum oxide added in the solid isolating layer; this is absolutely intolerable for sintering high-quality numerically controlled blades, bars.

Disclosure of Invention

The invention mainly aims to provide a hard alloy sintering anti-sticking coating and a preparation method and application thereof, the anti-sticking coating has enough bonding strength and hardness after being coated, and a coating layer is not easy to fall off and fall off in the processes of placing hard alloy products on graphite boats and plates and transporting and charging; the sintered coating layer can still keep higher hardness and bonding strength, and the condition of alloy carburization can not occur.

In order to achieve the above object, according to one aspect of the present invention, there is provided a cemented carbide sintered release coating material, which is formed by mixing a solid barrier powder and a liquid binder, the solid barrier powder comprising, in parts by weight: 22-40 parts of zirconium oxide, 5-8 parts of cerium oxide, 3-6 parts of magnesium oxide, 13-26 parts of flake graphite and 14-27 parts of fine carbon black; the liquid adhesive comprises the following components in parts by weight: 80-120 parts of water-soluble modified phenolic resin, 1.0-3.0 parts of thickening agent, 3-6 parts of dispersing agent, 4-8 parts of active agent, 1-5 parts of curing agent, 0.5-1.0 part of defoaming agent and 80-120 parts of diluent; the mass ratio of the solid isolation powder to the liquid adhesive is 1: (2.0-3.0); the water-soluble modified phenolic resin is modified by introducing maleic anhydride; the diluent is deionized water or a mixture of ethanol and deionized water.

According to the invention, the water-soluble modified phenolic resin is added into the formula of the anti-sticking coating, the water-soluble modified phenolic resin has high viscosity, high temperature resistance and good stability, the heat resistance and the bonding strength of the anti-sticking coating can be improved, the anti-sticking coating also has very high hardness and strength after being heated at high temperature, and the high carbon residue rate is realized at high temperature, so that a three-dimensional carbon network structure is formed, the integrity and the size stability of the resin are maintained, and the high-temperature performance, the stability, the hardness and the strength of the anti-sticking coating can be improved. The characteristic of the high carbon residue of the water-soluble modified phenolic resin is that the bonding shear strength of the water-soluble modified phenolic resin with a graphite boat and a graphite plate is still 8-15 MPa even at 1500-2500 ℃.

The invention adopts the water-soluble modified phenolic resin as the main adhesive, reduces the dosage of PEG, Tween and the like, reduces the polluted atmosphere, and simultaneously ensures that the sintered coating still has high hardness and strength; the water-soluble modified phenolic resin can be compatible with various organic matters and inorganic matters, can be slowly decomposed at high temperature to generate hydrogen and hydrocarbon, has no adverse effect on hard alloy products, and can also prevent the hard alloy from decarbonizing.

At high temperatures (e.g., above 1500 ℃), the water-soluble modified phenolic resin is brittle and, in addition, expands significantly in volume, causing cracks that can damage the sintered release coating. The invention adds cerium oxide and magnesium oxide with lower melting points, wherein the cerium oxide and the magnesium oxide are in a molten state at high temperature, thereby increasing the bonding strength of the phenolic resin with the graphite boat and the graphite plate and greatly reducing the cracks of the water-soluble modified phenolic resin.

Due to the characteristic that the water-soluble modified phenolic resin is compatible with various inorganic matters and organic matters, the phenolic resin quickly penetrates into the loose graphite boat and board at a lower temperature. At high temperature, the low melting point molten oxide can also permeate into the interior of graphite boat and plate to increase adhesive strength, and can react with residual carbon of water-soluble modified phenolic resin to be fused into one body, and the low melting point oxide can be adsorbed on the external surface of the residual carbon to produce fine composite. Through the synergistic effect of the water-soluble modified phenolic resin, cerium oxide and magnesium oxide, the expansion of the phenolic resin is retarded, the cracks of the resin are reduced, and the bonding strength of the coating is increased.

According to the invention, the high-temperature-resistant zirconium oxide is adopted to play a role in isolating the graphite boat from the hard alloy, and the crystalline flake graphite and the fine carbon black are adopted to play a role in regulating alloy decarburization; the cerium oxide and the magnesium oxide with lower melting points are added, the zirconium oxide with high melting point is matched with the cerium oxide and the magnesium oxide with low melting point for use, the cerium oxide and the magnesium oxide with low melting point are in a molten state at the sintering temperature while the zirconium oxide with high melting point ensures the sintering stability of the alloy, the solid-phase bonding effect is realized, and the bonding strength of the anti-sticking coating with the graphite boat and the graphite plate is increased. By adding the thickening agent, the dispersing agent, the active agent, the curing agent, the defoaming agent and the like, the anti-sticking coating has good leveling property and lubricity and thickness controllability of a coating layer.

According to the invention, the materials are combined according to a specific proportion, so that the surface of the coating layer of the anti-sticking coating before sintering is smooth and good in leveling property, and has enough bonding strength and hardness, and the coating layer is not easy to fall off and block in the processes of placing a hard alloy product on a graphite boat and transporting and charging; after the hard alloy is sintered, the coating layer can still keep higher hardness and bonding strength, and the condition of alloy carburization cannot occur. The sintering frequency of the anti-sticking coating is more than two times, while the prior sintered anti-sticking coating can be sintered only once and needs to be coated with the coating again.

Further, the thickening agent is one or more of hydroxypropyl methyl cellulose, hydroxyethyl cellulose and methyl cellulose. From the viewpoint of the viscosity of the adhesive, hydroxypropylmethylcellulose having a high viscosity is preferably used.

Further, the dispersant is one or more of polyethylene glycol, polyacrylic acid and hydroxylamine. The less expensive polyethylene glycols are preferred.

Further, the active agent is one or more of tween-80, hard alcohol polyoxyethylene ether, polyvalent carboxylic acid and water-soluble cellulose. Preferably, Tween-80 is used.

Further, the curing agent is one or more of urotropin and isocyanate. Urotropin is preferably used.

Further, the defoaming agent is one or more of a silicone defoaming agent and a polyether defoaming agent. Polydimethylsiloxane is preferably used.

According to another aspect of the invention, a preparation method of the cemented carbide sintered anti-sticking coating is provided, which comprises the following steps:

mixing zirconium oxide, cerium oxide, magnesium oxide, crystalline flake graphite and fine carbon black according to a ratio to obtain solid isolation powder, adding the solid isolation powder into a ball milling barrel, and putting grinding balls into the ball milling barrel;

adding water-soluble modified phenolic resin, a thickening agent, a dispersing agent, an active agent, a curing agent and a defoaming agent into a container according to a ratio, then adding a diluent according to a ratio, stirring until solid substances are completely dissolved to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and solid isolator powder for 12-24 hours, taking the liquid adhesive out of the barrel, and sieving to obtain the anti-sticking coating.

According to another aspect of the invention, the application of the anti-sticking coating or the anti-sticking coating obtained by the preparation method in a graphite plate or graphite boat for sintering hard alloy is further provided, the surface of the graphite plate or graphite boat for sintering hard alloy is cleaned, the anti-sticking coating is uniformly coated or sprayed on the graphite plate or graphite boat, and the coating is dried and cured.

Compared with the prior art, the invention has the beneficial effects that:

the anti-sticking coating comprises solid isolation powder, namely solid matters which play an isolation role between the hard alloy and the graphite boat and plate. The solid isolation powder can prevent the high-temperature chemical reaction of the hard alloy and the graphite boat and the graphite plate, and ensure the normal alloy structure of the sintered and combined gold product.

The water-soluble modified phenolic resin in the liquid adhesive is a high-temperature adhesive, so that the high-temperature performance, stability, hardness and strength of the anti-sticking coating are improved; meanwhile, cerium oxide and magnesium oxide with lower melting points are added, so that the activity of the anti-sticking coating is improved, the hardness and the bonding strength of the surface of the coating layer are increased, and the stability of the hard alloy sintering anti-sticking coating is improved.

The anti-sticking coating disclosed by the invention has good surface lubrication and leveling property of a coating layer before sintering; has sufficient adhesive strength and hardness. The coating layer can not fall off and fall off in the processes of placing hard alloy products on the graphite boat and the graphite plate, transporting and charging. After the hard alloy is sintered, the coating layer can still keep higher hardness and bonding strength, and carburization can be avoided. The preparation method of the anti-sticking coating is simple to operate and low in cost.

Drawings

FIG. 1 is a photograph of a graphite sheet coated with a release coating of the present invention.

Fig. 2 is a photograph of a graphite sheet coated with an anti-sticking coating dried in a drying oven.

Fig. 3 is a photograph of an alloy article placed on a graphite plate.

Detailed Description

In order to facilitate an understanding of the present invention, the present invention will be described more fully and in detail with reference to the preferred embodiments, but the scope of the present invention is not limited to the specific embodiments described below.

Unless otherwise defined, all terms of art used hereinafter have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the present invention.

Unless otherwise specifically stated, various raw materials, reagents, instruments, equipment and the like used in the present invention are commercially available or can be prepared by existing methods.

Example 1:

the hard alloy sintering anti-sticking coating is formed by mixing solid isolation powder and a liquid adhesive. Wherein, the solid isolation powder consists of the following materials:

the liquid adhesive consists of the following materials:

the preparation method of the hard alloy sintering anti-sticking coating comprises the following steps:

mixing the materials in the solid isolation powder in proportion to obtain solid isolation powder, and putting the solid isolation powder into a ball milling barrel; putting hard alloy grinding balls into a ball milling barrel, wherein the mass ratio of the balls to the materials is 3: 1;

firstly, adding water-soluble modified phenolic resin liquid, hydroxypropyl methylcellulose powder, tween-80 liquid, sheet PEG, granular urotropine and polydimethylsiloxane liquid into a container in proportion; and then adding diluent ethanol and deionized water in proportion, uniformly stirring, standing for several hours, dissolving all solid substances to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and the solid isolation powder together for 12-24 hours, taking the mixture out of the barrel after the ball milling is finished, and sieving the mixture through a 100-mesh sieve to obtain the anti-sticking coating.

The surface of a graphite plate for sintering hard alloy is cleaned, the anti-sticking coating of the embodiment is uniformly coated on the graphite plate (see figure 1), and the coated graphite plate is dried in an electric oven at 150 ℃ (see figure 2) for 120 min. Then placing YG8 and YG10 alloy products on a graphite plate (see figure 3), removing forming agents in a vacuum low-pressure furnace, and obtaining the alloy products through partial pressure sintering, pressure sintering and sintering (the junction temperature is 1450 ℃) and temperature reduction (the total time is about 24 hours). And after the product is taken out of the furnace, the color of the alloy product is normal, and the anti-sticking coating layer on the graphite plate does not fall off. Through detection, the cobalt magnetic value, the coercive force value, the density value and the hardness value of the alloy product are normal. Through metallographic analysis, the alloy product has two normal structures, and the alloy performance meets the standard.

Example 2:

the hard alloy sintering anti-sticking coating provided by the embodiment of the invention comprises solid isolation powder and a liquid adhesive, wherein the solid isolation powder consists of the following materials:

the liquid adhesive consists of the following materials:

the preparation method of the hard alloy sintering anti-sticking coating comprises the following steps:

mixing the materials in the solid isolation powder in proportion to obtain solid isolation powder, and putting the solid isolation powder into a ball milling barrel; putting hard alloy grinding balls into a ball milling barrel, wherein the mass ratio of the balls to the materials is 3: 1;

firstly, adding water-soluble modified phenolic resin liquid, hydroxypropyl methylcellulose powder, tween-80 liquid, sheet PEG, granular urotropine and polydimethylsiloxane liquid into a container in proportion; and then adding diluent ethanol and deionized water in proportion, uniformly stirring, standing for several hours, dissolving all solid substances to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and the solid isolation powder together for 12-24 hours, taking the mixture out of the barrel after the ball milling is finished, and sieving the mixture through a 100-mesh sieve to obtain the anti-sticking coating.

Cleaning the surface of a graphite boat for sintering hard alloy, uniformly coating the anti-sticking coating on the graphite boat, and drying the coated graphite boat in an electric oven at 150 ℃ for 120 min; then placing YG9C and YG12 alloy products on a graphite boat, removing forming agents in a vacuum low-pressure furnace, and performing partial pressure sintering, pressure sintering (sintering temperature 1450 ℃) and temperature reduction (the total time is about 24 hours) to obtain the alloy products. After the product is taken out of the furnace, the color of the alloy product is normal, and the anti-sticking coating layer on the graphite boat does not fall off. Through detection, the cobalt magnetic value, the coercive force value, the density value and the hardness value of the alloy are normal. Through metallographic analysis, the alloy has two normal structures, and the alloy performance meets the standard.

Example 3:

the hard alloy sintering anti-sticking coating provided by the embodiment of the invention comprises solid isolation powder and a liquid adhesive, wherein the solid isolation powder consists of the following materials:

the liquid adhesive consists of the following materials:

the preparation method of the hard alloy sintering anti-sticking coating comprises the following steps:

mixing the materials in the solid isolation powder in proportion to obtain solid isolation powder, and putting the solid isolation powder into a ball milling barrel; putting hard alloy grinding balls into a ball milling barrel, wherein the mass ratio of the balls to the materials is 3: 1;

firstly, adding water-soluble modified phenolic resin liquid, hydroxypropyl methylcellulose powder, Tween 80 liquid, sheet PEG, granular urotropine and polydimethylsiloxane liquid into a container in proportion; and then adding diluent ethanol and deionized water in proportion, uniformly stirring, standing for several hours, dissolving all solid substances to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and the solid isolation powder together for 12-24 hours, taking the mixture out of the barrel after the ball milling is finished, and sieving the mixture through a 100-mesh sieve to obtain the anti-sticking coating.

The surface of a graphite boat for sintering the hard alloy is cleaned, the anti-sticking coating of the embodiment is uniformly coated on the graphite boat, and then the graphite boat coated with the anti-sticking coating is obtained after drying and curing for 36 hours at room temperature. YG12C and YG16C alloy products were placed on a graphite boat, the forming agent was removed in a vacuum low pressure furnace, and the alloy products were obtained by partial pressure sintering, pressure sintering (sintering temperature 1450 ℃ C.) and temperature reduction (total 24 hours above). After the product is taken out of the furnace, the color of the alloy product is normal, and the anti-sticking coating layer on the graphite boat does not fall off. Through detection, the cobalt magnetic value, the coercive force value, the density value and the hardness value of the alloy are normal. Through metallographic analysis, the alloy has two normal structures, and the alloy performance meets the standard.

Example 4:

the hard alloy sintering anti-sticking coating provided by the embodiment of the invention comprises solid isolation powder and a liquid adhesive, wherein the solid isolation powder consists of the following materials:

the liquid adhesive consists of the following materials:

the preparation method of the hard alloy sintering anti-sticking coating comprises the following steps:

mixing the materials in the solid isolation powder in proportion to obtain solid isolation powder, and putting the solid isolation powder into a ball milling barrel; putting hard alloy grinding balls into a ball milling barrel, wherein the mass ratio of the balls to the materials is 3: 1;

firstly, adding water-soluble modified phenolic resin liquid, hydroxypropyl methylcellulose powder, tween-80 liquid, sheet PEG, granular urotropine and polydimethylsiloxane liquid into a container in proportion; and then adding diluent ethanol and deionized water in proportion, uniformly stirring, standing for several hours, dissolving all solid substances to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and the solid isolation powder together for 12-24 hours, taking the mixture out of the barrel after the ball milling is finished, and sieving the mixture through a 100-mesh sieve to obtain the anti-sticking coating.

The surface of a graphite boat for sintering the hard alloy is cleaned, the anti-sticking coating of the embodiment is uniformly coated on the graphite boat, and then the graphite boat coated with the anti-sticking coating is obtained after drying and curing for 36 hours at room temperature. Placing YG12C and YG16C alloy products on a graphite boat, removing forming agent in a vacuum low-pressure furnace, and performing partial pressure sintering, pressure sintering at 1450 ℃, heat preservation for 60min and temperature reduction (the total time is about 24 h) to obtain the alloy products. After the product is taken out of the furnace, the color of the alloy product is normal, and the anti-sticking coating layer on the graphite boat does not fall off. Through detection, the cobalt magnetic value, the coercive force value, the density value and the hardness value of the alloy are normal. Through metallographic analysis, the alloy has two normal structures, and the alloy performance meets the standard.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The hard alloy sintering anti-sticking coating is characterized by being formed by mixing solid isolation powder and a liquid adhesive, wherein the solid isolation powder comprises the following components in parts by weight: 22-40 parts of zirconium oxide, 5-8 parts of cerium oxide, 3-6 parts of magnesium oxide, 13-26 parts of flake graphite and 14-27 parts of fine carbon black; the liquid adhesive comprises the following components in parts by weight: 80-120 parts of water-soluble modified phenolic resin, 1.0-3.0 parts of thickening agent, 3-6 parts of dispersing agent, 4-8 parts of active agent, 1-5 parts of curing agent, 0.5-1.0 part of defoaming agent and 80-120 parts of diluent; the mass ratio of the solid isolation powder to the liquid adhesive is 1: (2.0-3.0); the water-soluble modified phenolic resin is modified by introducing maleic anhydride; the diluent is deionized water or a mixture of ethanol and deionized water.

2. The cemented carbide sintered release coating according to claim 1, wherein the thickener is one or more of hydroxypropyl methylcellulose, hydroxyethyl cellulose, methyl cellulose.

3. The cemented carbide sintered anti-sticking coating of claim 1, wherein the dispersant is one or more of polyethylene glycol, polyacrylic acid, hydroxylamine.

4. The cemented carbide sintering anti-sticking coating as claimed in claim 1, wherein the active agent is one or more of tween-80, hard alcohol polyoxyethylene ether, polyvalent carboxylic acid, and water-soluble cellulose.

5. The cemented carbide sintered release coating according to claim 1, wherein the curing agent is one or more of urotropine and isocyanate.

6. The cemented carbide sintering anti-sticking coating according to claim 1, wherein the defoaming agent is one or more of a silicone defoaming agent and a polyether defoaming agent.

7. The method for preparing the cemented carbide sintered anti-sticking coating as claimed in any one of claims 1 to 6, comprising the steps of:

mixing zirconium oxide, cerium oxide, magnesium oxide, crystalline flake graphite and fine carbon black according to a ratio to obtain solid isolation powder, adding the solid isolation powder into a ball milling barrel, and putting grinding balls into the ball milling barrel;

adding water-soluble modified phenolic resin, a thickening agent, a dispersing agent, an active agent, a curing agent and a defoaming agent into a container according to a ratio, then adding a diluent according to a ratio, stirring until solid substances are completely dissolved to obtain a liquid adhesive, pouring the liquid adhesive into a ball milling barrel, ball milling the liquid adhesive and solid isolation powder for 12-24 h, taking out of the barrel, and sieving to obtain the anti-sticking coating.

8. The application of the anti-sticking coating as defined in any one of claims 1 to 6 or the anti-sticking coating obtained by the preparation method as defined in claim 7 in a graphite plate or graphite boat for sintering hard alloy, which is characterized in that the surface of the graphite plate or graphite boat for sintering hard alloy is cleaned, the anti-sticking coating is uniformly coated or sprayed on the graphite plate or graphite boat, and the coating is dried and cured.

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