CN108677136A - A method of eliminating hard alloy decarburization defect - Google Patents

Abstract

The invention discloses a kind of methods for eliminating hard alloy decarburization defect, belong to the manufacture production field of hard alloy, including：Titanium dioxide, carbon black and solvent are configured to coating；Then coating is uniformly applied to carbide surface, carries out decarburization and returns burning；Hard alloy after burning is returned to decarburization and carries out blasting treatment.Coating is covered decarburization position by the present invention and qualified position is not smeared, and selectively can be carried out decarburization to decarburization position and be returned burning；It after coating material is covered in product surface, can be directly placed on the graphite boat of original carrying product, no special boat requirement；It carries out returning burning using vacuum sintering furnace or low-pressure sintering furnace, paste coating is vacuumized in sintering process, will not distribute pollution sintering furnace and its pipeline, is not needed any cleaning or is used special sintering furnace；This method for eliminating hard alloy decarburization defect provided by the invention, realizes the elimination of hard alloy decarburization defect, process is short, and production cost is low.

Description

A method of eliminating hard alloy decarburization defect

Technical field

The invention belongs to the manufacture production fields of hard alloy, and in particular to a kind of side eliminating hard alloy decarburization defect Method.

Background technology

Carbon content is the key technical index of hard alloy, largely determines the mechanical-physical of hard alloy Can, the carbon in hard alloy is primarily present two kinds of forms：Refractory carbide is formed first, being combined with refractory metal；Second is that single Matter free carbon, the saturation carbon content of refractory carbide can make to exist in hard alloy within the scope of one, higher than underrange Free carbon can make metal carbides in hard alloy lack carbon, form decarburization η phases, decarburization η phases in hard alloy less than underrange It is present between Binder Phase and hard phase, as impurity defect, its appearance can reduce the machinery of hard alloy for the generation of η phases Physical property, thus to produce good hard metal article and must just eliminate decarburization defect.

Currently, the method for eliminating hard metal article decarburization defect predominantly is completed to take off in a vacuum furnace using filler mode Carbon returns burning, and stuffing process has the following problems：1) filler mode can only be integrally embedded to, i.e., be whole, Bu Nengxuan to product package Selecting property carrying out decarburization to decarburization position returns burning；2) filler mode often uses alundum (Al2O3) powder, in vacuum sintering furnace or Decarburization is carried out under low-pressure sintering furnace and returns burning, is vacuumized in sintering process, alundum (Al2O3) powdered form can be because of powdered form weight Amount is diffused to when gently vacuumizing inside burner hearth or even in vacuum pipe, and sintering furnace is caused to damage；3) filler mode is due to needing It is poor to eliminate adaptability to the decarburization of Large scale alloy product for the specific box-packed load filler of boat and alloy product；4) Filler mode needs to detach alloy product with decarburization filler with sieve after the completion of sintering, and process is longer, and cost is higher.

Invention content

Can burning selectively be returned to the progress decarburization of decarburization position the purpose of the present invention is to provide one kind and prevent three oxygen Change the method for the elimination hard alloy decarburization defect of two aluminium powders damage sintering furnace.

This method for eliminating hard alloy decarburization defect provided by the invention, including：

Titanium dioxide, carbon black and solvent are configured to coating；

Then coating is uniformly applied to carbide surface, carries out decarburization and returns burning；

The hard alloy progress blasting treatment after burning is returned to decarburization to be eliminated de- to clean up the coating of alloy surface The hard alloy of carbon defects.

With the total weight of titanium dioxide and carbon black, titanium dioxide in the coating, carbon black weight percent be respectively 20~35%, 65~80%, the additive amount of the solvent is the 15~25% of the total weight of titanium dioxide and carbon black.

The titanium dioxide selects titanium dioxide, purity >=99.0%.

The carbon black selects high-purity carbon black, purity >=99.0%.

The solvent is pure water or deionized water.

The coating is formulated by following manner：After titanium dioxide and carbon black are mixed, adds solvent and be uniformly mixed After be made.

According to the difference of the decarburization phase rank of hard alloy, adjusts the percentage of titanium dioxide and carbon black in coating and contain Amount.

For the hard alloy of following decarburization phase ranks, the weight percent of titanium dioxide and carbon black in coating is as follows：

Above-mentioned percentage is with the total weight of titanium dioxide and carbon black.

The decarburization is returned burning and is sintered using vacuum sintering furnace or pressure sintering furnace.

The heating cycle that burning is returned in the decarburization is：1350 DEG C are first warming up to, keeps the temperature 20~40min, then be warming up to 1450 DEG C, 30~50min is kept the temperature, then cools to room temperature with the furnace.

The principle of the present invention：Titanium dioxide main component is titanium dioxide, has a high stability, titanium dioxide itself and carbon, Tungsten will not chemically react, but the effect of carbon potential balance can drive the free carbon in alloy medium high carbon area to be spread to low-carbon area, Under certain temperature dissociate carbon spread and adsorb be deposited on titanium dioxide surface, while the carbon mixed in titanium dioxide at this temperature Clandestine meeting occurs corresponding chemical reaction with decarburization η phases and forms the tungsten carbon compounds such as relatively stable tungsten carbide and ditungsten carbide, finally Alloy product decarburization defect is eliminated, since η phases have higher chemical stability, cobalt phase therein is at 1440 DEG C or more, ability It is fully converted into liquid phase, therefore burning temperature is returned into decarburization and is set to 1450 DEG C, may insure necessary η inversion of phases after keeping the temperature appropriate time For tungsten carbide and ditungsten carbide.

Compared with prior art, advantageous effects of the invention：

This method for eliminating hard alloy decarburization defect provided by the invention, by coating (titanium dioxide-carbon black-solvent) Covering decarburization position and qualified position is not smeared, can decarburization selectively be carried out to decarburization position and return burning；The present invention is by coating It after smearing is covered in product surface, can be directly placed on the graphite boat of original carrying product, no special boat requirement, no It needs to contain burning product to be returned using closed graphite, specific apparent advantage, hydrogen stuffing process carries out decarburization to product Burning is returned, for the product size length of processing no more than 200mm, decarburization, which is returned, burns qualification rate no more than 80%, disappears using the present invention Except the method for hard alloy decarburization defect, it can be returned with product of the treated length within 300mm, decarburization and burn qualification rate up to 95%.

This method for eliminating hard alloy decarburization defect provided by the invention, product surface is covered in by coating, can be with It directly carries out returning burning using vacuum sintering furnace or low-pressure sintering furnace, paste coating is vacuumized in sintering process, will not be dissipated Hair pollution sintering furnace and its pipeline so that sintering furnace continues normal sintered products, does not need any cleaning or uses special burning Freezing of a furnace.

This method for eliminating hard alloy decarburization defect provided by the invention, by applying trowelling in carbide surface Then material carries out decarburization and returns burning, blasting treatment, Metallographic Analysis result shows that the metallographic structure E classes of hard metal article are E00 realizes the elimination of hard alloy decarburization defect, and process is short, and production cost is low.

Description of the drawings

Fig. 1 is the decarburization metallograph for the YG6X hard alloy that embodiment 1 is chosen.

Fig. 2 is using 1 method of embodiment treated YG6X hard alloy metallographs.

Fig. 3 is the decarburization metallograph for the YG6X hard alloy that embodiment 2 is chosen.

Fig. 4 is using 2 method of embodiment treated YG6X hard alloy metallographs.

Fig. 5 is the decarburization metallograph for the YG6X hard alloy that embodiment 3 is chosen.

Fig. 6 is using 3 method of embodiment treated YG6X hard alloy metallographs.

Specific implementation mode

The technical scheme in the embodiments of the invention will be clearly and completely described below, it is clear that described implementation Example is only a part of the embodiment of the present invention, rather than whole embodiments, based on the embodiments of the present invention, the common skill in this field The every other embodiment that art personnel are obtained without making creative work belongs to the model that the present invention protects It encloses, present invention will be further explained below with reference to the attached drawings and specific examples.

Embodiment 1

The selection trade mark is YG6X, and model MAP019162-2.6, metallographic structure E classes are the hard metal article 23 of E50 Part, hard alloy metallograph are shown in Fig. 1.

Steps are as follows for specific method：Configuration 80% carbon black 0.80kg, remaining be 20% titanium dioxide 0.2kg, by carbon black with After titanium dioxide stirs evenly, the total coating 1kg of carbon black-titanium dioxide is obtained, then it is the pure of carbon black-titanium dioxide total weight 25% to add weight Water purification 0.25kg obtains coating after stirring evenly；Prepared coating is uniformly applied to the hard alloy of decarburization defect Product surface is then placed in graphite boat；The graphite boat of hard alloy equipped with decarburization defect is put into vacuum sintering furnace, 1350 DEG C are first warming up to, 3min is kept the temperature, then heats to 1450 DEG C, soaking time 40min cools to room temperature with the furnace；Sintering After the completion, product progress blasting treatment is burnt to returning, to clean up the coating of alloy surface, the hard for the decarburization defect that is eliminated closes Gold.

The burned product that returns after blasting treatment is randomly selected by 3 therein does Metallographic Analysis, analysis result is 3 products Metallographic structure C classes are C00, and specific metallograph is shown in Fig. 2.

Embodiment 2

The selection trade mark is YG6X, and model MAP019162-2.6, metallographic structure E classes are the hard metal article 22 of E06 Part, hard alloy metallograph are shown in Fig. 3.

Steps are as follows for specific method：Configuration 75% carbon black 0.75kg, remaining be 25% titanium dioxide 0.25kg, by carbon black with After titanium dioxide stirs evenly, the total coating 1kg of carbon black-titanium dioxide is obtained, then it is the pure of carbon black-titanium dioxide total weight 20% to add weight Water purification 0.20kg obtains coating after stirring evenly；Prepared coating is uniformly applied to the hard alloy of decarburization defect Product surface is then placed in graphite boat；The graphite boat of hard alloy equipped with decarburization defect is put into vacuum sintering furnace, 1350 DEG C are first warming up to, 3min is kept the temperature, then heats to 1450 DEG C, soaking time 40min cools to room temperature with the furnace；Sintering After the completion, product progress blasting treatment is burnt to returning, to clean up the coating of alloy surface, the hard for the decarburization defect that is eliminated closes Gold.

The burned product that returns after blasting treatment is randomly selected by 3 therein does Metallographic Analysis, analysis result is 3 products Metallographic structure E classes are E00, and specific metallograph is shown in Fig. 4.

Embodiment 3

The selection trade mark is YG6, and model MAP019162-2.6, metallographic structure E classes are the hard metal article 20 of E02, Hard alloy metallograph is shown in Fig. 5.

Steps are as follows for specific method：Configuration 68% carbon black 0.68kg, remaining be 32% titanium dioxide 0.32kg, by carbon black with After titanium dioxide stirs evenly, the total coating 1kg of carbon black-titanium dioxide is obtained, then it is the pure of carbon black-titanium dioxide total weight 15% to add weight Water purification 0.15kg obtains coating after stirring evenly；Prepared coating is uniformly applied to the hard alloy of decarburization defect Product surface is then placed in graphite boat；The graphite boat of hard alloy equipped with decarburization defect is put into vacuum sintering furnace, 1350 DEG C are first warming up to, 3min is kept the temperature, then heats to 1450 DEG C, soaking time 40min cools to room temperature with the furnace；Sintering After the completion, product progress blasting treatment is burnt to returning, to clean up the coating of alloy surface, the hard for the decarburization defect that is eliminated closes Gold.

The burned product that returns after blasting treatment is randomly selected by 3 therein does Metallographic Analysis, analysis result is 3 products Metallographic structure E classes are E00, and specific metallograph is shown in Fig. 6.

The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation Example.To those of ordinary skill in the art, obtained improvement and change in the case where not departing from the technology of the present invention concept thereof It changes and also should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of method for eliminating hard alloy decarburization defect, it is characterised in that including：

Titanium dioxide, carbon black and solvent are configured to coating；

Then coating is uniformly applied to carbide surface, carries out decarburization and returns burning；

Hard alloy after burning is returned to decarburization and carries out blasting treatment, the hard alloy for the decarburization defect that is eliminated.

2. requiring 1 method for eliminating hard alloy decarburization defect according to power, which is characterized in that titanium dioxide in the coating Titanium, carbon black weight percent be respectively 20~35%, 65~80%, the additive amount of the solvent is titanium dioxide and carbon black The 15~25% of total weight.

3. requiring 1 or 2 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that the titanium dioxide choosing With titanium dioxide, purity >=99.0%.

4. requiring 1 or 2 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that the carbon black is selected high Pure carbon black, purity >=99.0%.

5. requiring 1 or 2 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that the solvent is pure Water or deionized water.

6. requiring 1 or 2 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that the coating is by following Mode is formulated：After titanium dioxide and carbon black are mixed, adds solvent and be made after mixing.

7. requiring 1 or 2 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that according to hard alloy The difference of decarburization phase rank adjusts the percentage contents of titanium dioxide and carbon black in coating.

8. requiring 7 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that for following decarburization phase ranks Hard alloy, the weight percent of titanium dioxide and carbon black in coating is as follows：

Above-mentioned percentage is with the total weight of titanium dioxide and carbon black.

9. requiring 1 method for eliminating hard alloy decarburization defect according to power, which is characterized in that the decarburization returns burning using true Empty sintering furnace or pressure sintering furnace sintering.

10. requiring 1 or 9 methods for eliminating hard alloy decarburization defect according to power, which is characterized in that burning is returned in the decarburization Heating cycle is：1350 DEG C are first warming up to, keeps the temperature 20~40min, then be warming up to 1450 DEG C, 30~50min is kept the temperature, then with stove It is cooled to room temperature.