CN109554627A - Graphene composite high speed tool steel - Google Patents

Abstract

The present invention relates to a kind of graphene composite high speed tool steel, including high-speed tool steel matrix and the graphene compound with the high-speed tool steel matrix, the high-speed tool steel matrix includes ferro element, non-graphite carbon and other elements, and the other elements include Cr, V, Mo, Co and W；The mass fraction of each component in the graphene composite high speed tool steel are as follows: graphene 0.01%~2%；Non-graphite carbon 1.4%~1.8%；Cr 4%~5%；V 4%~5.5%；Mo 1.5%~2.5%；Co 7.5%~8.2%；W 10.2%~12%.

Description

Graphene composite high speed tool steel

Technical field

The present invention relates to high-speed tool steel field of material technology, more particularly to a kind of graphene composite high speed tool steel.

Background technique

High-speed tool steel is mainly used to prepare high speed cutting tool, such as the cutting of drill bit, milling cutter and band saw, has red hard Property the high, characteristics such as wearability is good, intensity is high.The fast development of modern manufacturing industry require high-speed tool steel have better performance and Stability, to improve its processing efficiency and machining accuracy.In recent years, the quality and production technology of domestic and international high-speed tool steel Etc. all achieve very fast development, the development of high-speed tool steel has also pushed industrial products to advanced, individuation, high additional The direction of value is developed.But the performance of existing high-speed tool steel only can satisfy the cutting of general material, and for high property For energy part, existing high-speed tool steel bending strength and hardness are still not high enough, while impact flexibility is lower, is unable to satisfy height The process requirements of performance part.

Summary of the invention

Based on this, it is necessary to for the low problem of high-speed tool steel mechanical performance, provide a kind of graphene composite high speed work Has steel.

The present invention provides a kind of graphene composite high speed tool steel, including high-speed tool steel matrix and with the high-speed tool The graphene of base steel bluk recombination, the high-speed tool steel matrix include ferro element, non-graphite carbon and other elements, described Other elements include Cr, V, Mo, Co and W；

The mass fraction of each component in the graphene composite high speed tool steel are as follows:

Graphene 0.01%~2%；

Non-graphite carbon 1.4%~1.8%；

Cr 4%~5%；

V 4%~5.5%；

Mo 1.5%~2.5%；

Co 7.5%~8.2%；

W 10.2%~12%.

The mass fraction of the graphene is 0.05~0.5% in one of the embodiments,.

In one of the embodiments, in the graphene composite high speed tool steel, the other elements further include Mn And Si, mass fraction≤0.3% of the Mn, mass fraction≤0.6% of the Si.

The graphene composite high speed tool steel is by by graphene powder and high-speed tool in one of the embodiments, Comminuted steel shot body is prepared by hot isostatic pressing after evenly mixing, and the temperature of the hot isostatic pressing is 950~1300 DEG C.

It is 3 μm~40 μm that the partial size of the graphene powder, which is piece diameter, in one of the embodiments,.

The partial size of the high-speed tool steel powder is 10 μm~70 μm in one of the embodiments,.

The step of preparing the graphene composite high speed tool steel in one of the embodiments, include:

Mixed liquor is provided, the mixed liquor includes volatile organic solvent, graphene powder and high-speed tool steel powder；

It is dried the mixed liquor to obtain mixed powder；

The mixed powder after the drying process is loaded into jacket and vacuumize degassing processing and will be described Jacket sealing；

The sealing jacket for being mounted with the mixed powder is subjected to hip treatment, the temperature of the hot isostatic pressing is 950 DEG C~1300 DEG C, so that the mixed powder forms composite body；And

The composite body is separated with the jacket.

The step of preparing the graphene composite high speed tool steel in one of the embodiments, further include:

The drying process step and it is described vacuumize between degassing processing step, to the mixing after the drying process Powder carries out the step of low temperature ball milling, and the temperature of the low temperature ball milling is -80 DEG C~-160 DEG C.

In one of the embodiments, the bending strength of the graphene composite high speed tool steel be 3800Mpa~ 4500Mpa。

The hardness of the graphene composite high speed tool steel is 70 HRC~80HRC in one of the embodiments,.

The impact flexibility of the graphene composite high speed tool steel is 70J/cm in one of the embodiments,²~90 J/ cm²。

Graphene composite high speed tool steel provided by the invention, by two-dimension nano materials graphene and high-speed tool steel matrix Uniform compound, the unique bi-dimensional cellular crystal structure of graphene and high bond strength, have graphene composite high speed tool steel There are higher mechanical performance, bending strength, hardness and impact flexibility especially with higher.

The graphene composite high speed tool steel can be applied not only to general cutting material, such as cutter, drill bit and band Saw etc., applies also for the accurate punching tool of heavy-duty machinery tool, high-strength material, and the service life is longer.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, by the following examples, to the present invention It is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, is not used to limit The fixed present invention.

The present invention provides a kind of preparation method of graphene composite high speed tool steel, comprising the following steps:

S10, provides mixed liquor, and the mixed liquor includes volatile organic solvent, graphene powder and high-speed tool steel Powder；

S20 is dried the mixed liquor to obtain mixed powder；

The mixed powder after the drying process is loaded into jacket and vacuumize degassing processing and incite somebody to action by S30 The jacket sealing；

The sealing jacket for being mounted with the mixed powder is carried out hip treatment, the temperature of the hot isostatic pressing by S40 It is 950 DEG C~1300 DEG C, so that the mixed powder forms composite body；

S50 separates the composite body with the jacket.

The embodiment of the present invention is quiet by the way that graphene and high-speed tool steel powder are carried out mechanical mixture, vacuum suction and heat etc. Pressure processing, is prepared graphene composite high speed tool steel.By the method for hot isostatic pressing, acted on simultaneously in high temperature and high pressure Under, so that graphene and high-speed tool comminuted steel shot is consolidated into type, to realize the combination of graphene and high-speed tool comminuted steel shot matrix, solves Graphene is easy to reunite, can not evenly dispersed in the base and high-temperature interface the problem of reacting, while simplifying technique step Suddenly, the problem of oxidation of graphene during multi-step process is avoided.By controlling the temperature of hot isostatic pressing 950 DEG C~1300 DEG C, the firm connection of graphene and high-speed tool Steel material is realized, so that having good knot between graphene and steel element Interface is closed, the graphene composite high speed tool steel with high-mechanical property is formed.

The high-speed tool steel powder obtains after being crushed for each group at the powder of element simple substance or by corresponding steel The powder arrived.The high-speed tool steel powder is to account for the iron of 70% or more graphene composite high speed tool steel gross mass as substantially Element, the high-carbon using tungsten, molybdenum, chromium, vanadium, cobalt as main alloy element, and including non-graphite carbon and other doped chemicals High-alloy steel.Composition high-speed tool is calculated according to mass fraction of each component in the graphene composite high speed tool steel The dosage of each component of comminuted steel shot body.In the graphene composite high speed tool steel, the matter of the non-graphite carbon Measuring score can be 1.4%~1.8%, preferably 1.6%~1.7%；The mass fraction of the main alloy element can be with are as follows: W 10.2%~12%, Mo 1.5%~2.5%, Cr 4%~5%, V 4%~5.5%, Co 7.5%~8.2%；It is described Graphene composite high speed tool steel can also include or not include content lower Mn, Si or other alloying elements, it is preferred that Mn ≤ 0.3%, Si≤0.6%.

The mass ratio of the graphene powder and the high-speed tool steel powder is 0.01:99.9~1:49, i.e., described In graphene composite high speed tool steel, the mass fraction of the graphene powder is 0.01%~2%.The graphene is original Graphene, i.e., not oxidized or linkage function group graphene, the number of plies of the graphene can be 1~8 layer, it is preferred that The number of plies of the graphene is 1~3 layer, and the number of plies of the graphene is fewer, the machine of the graphene composite high speed tool steel of formation Tool performance is better.Preferably, in the graphene composite high speed tool steel, the mass fraction of the graphene is 0.05~ 0.5%.

The partial size of the high-speed tool steel powder can be 10 μm~70 μm, and the piece diameter of the graphene powder can be 3 μ M~40 μm, the piece diameter range are more advantageous to uniformly mixing and mutually matched mentioning between steel powder and graphene powder The mechanical performance of high graphene composite high speed tool steel.

In step slo, the graphene powder and the high-speed tool steel powder are in the volatile organic solvent It is mixed by evenly dispersed mode, graphene powder uniformly mixes in the mixed powder after volatile organic solvent volatilization In the high-speed tool steel powder.

In one embodiment, the step of offer mixed liquor may include:

The graphene powder and the high-speed tool steel powder are carried out being mixed to form first and be mixed by S12 in drying regime Close powder；

S14 mixes first mixed powder with the volatile organic solvent.

The volatile organic solvent may be selected to be will not be to the graphene powder and the high-speed tool steel powder At least one of easy volatile solvent that property has an impact, including ethyl alcohol, ether, acetone and other organic solvent, it is preferred that described The component of mixed liquor is not aqueous, and the volatile organic solvent is dehydrated alcohol.

It in step s 12, can be by the method for mechanical mixture by the graphene powder and the high-speed tool comminuted steel shot Body uniformly mixes.Preferably, powder machine is mixed by V-type uniformly to mix the graphene powder and the high-speed tool steel powder. The mixing time can be determined according to the partial size and type of the graphene powder and the high-speed tool steel powder.? In one embodiment, the mixing time can be 4 hours~10 hours.

In step S14, first mixed powder and the volatile organic solvent can be by described in stirring formation Mixed liquor.

, can be to heat to the mixed liquor the step of drying process in step S20, the heating Temperature can be 25 DEG C~50 DEG C.In one embodiment, the step S20 and the step S14 can be carried out simultaneously, be passed through The mixed liquor is heated in whipping process so that volatile organic solvent volatilization, can simplify technique step Suddenly.

Preferably, the step of drying process may include: to be stirred the mixed liquor at 40 DEG C~50 DEG C, directly Slurry is formed to the removal part volatile organic solvent, the content of the volatile organic solvent in the slurry is excellent It is selected as the 5%~20% of slurry total weight；And be dried in vacuo the slurry, it all removes described in the slurry Volatile organic solvent.By the drying process, the high-speed tool steel powder can be avoided in prolonged aerobic environment Surface is oxidized in heat drying process.In one embodiment, the vacuum drying temperature can be 80 DEG C~100 DEG C.

In step s 30, described the step of vacuumizing degassing processing, may include:

S32, by vacuum degree that the jacket for being mounted with the mixed powder is evacuated in the jacket be less than or Equal to 1.0 × 10^-2Pa；And

S34 is heated, the heating temperature to being mounted with described in the mixed powder to be wrapped under the vacuum degree It is 400 DEG C~600 DEG C.

The completeness and herein of degassing processing is vacuumized using first vacuumizing the step of reheating processing and advantageously ensuring that The property of the mixed powder is unaffected in the process, and heat treatment step is avoided to aoxidize graphene.

In one embodiment, the heating time of the step S34 is 2 hours~10 hours.

In one embodiment, can also include: the drying process step and it is described vacuumize degassing processing step it Between, to after the drying process mixed powder carry out ball milling the step of.Ball milling is carried out before the vacuumize process step, So that the particle size of the mixed powder is smaller, it is more advantageous to thorough degasification.Meanwhile reducing the particle ruler of the mixed powder It is very little, be conducive to reduce the interface distance between graphene and steel element in further hot isostatic pressing, it is multiple to improve the graphene Close the mechanical performance of high-speed tool steel.The ball-milling technology is preferably low temperature ball milling, and low temperature ball milling can not only make the graphite Alkene powder and the high-speed tool steel powder uniformly mix, and can also make the graphene powder and the high-speed tool steel powder Interface cohesion is formed, the mechanical performance of the graphene composite high speed tool steel is further increased.Preferably, the low temperature ball milling Temperature can be -80 DEG C~-160 DEG C.

In step s 40, by the way that the mixed powder to be loaded into the closed jacket, to being mounted with the mixing The jacket of powder applies each to same pressure, while high temperature is imposed, under the influence of high pressure and temperature, so that the mixing Powder is able to be sintered and densification forms graphene composite high speed tool steel.The material of the jacket can be selected from metal or glass Glass.The pressure medium can be using inert gases such as nitrogen, argon gas.

Preferably, the temperature of the hot isostatic pressing can be 1050 DEG C~1200 DEG C.The pressure of the hot isostatic pressing can be with For 120MPa~200MPa.The hip treatment time can be 2 hours~5 hours.The temperature, pressure and time phase Mutually cooperation, so that the global density for the graphene steel composite material that hot isostatic pressing is formed is more evenly, material is finer and close, mechanical Performance is more preferable.

Preferably, the preparation method of the graphene composite high speed tool steel may further include: S60, will be described multiple After condensation material green body is separated with the jacket, the step of the composite body is machined and is heat-treated.Institute It states machining and heat treatment includes isothermal forging, rolling and one of quenching and tempering heat treatment or a variety of.

In one embodiment, the machining includes carrying out isothermal forging, the isothermal forging to composite body Temperature can be 900 DEG C~1200 DEG C, and forging rate can be 0.005mm/min to 0.02mm/min.It can by isothermal forging To be conducive to the precision and matter that improve the graphene composite high speed tool steel for the graphene composite high speed tool steel moulding Amount.

In one embodiment, the machining can also include the steps that rolling the composite body, The rolling temperature can be 1000 DEG C~1200 DEG C.In one embodiment, the thickness of the green body after rolling can be 1.5mm~30mm.The rolling thickness can be determined according to the concrete application of the graphene composite high speed tool steel.

In one embodiment, the machining further comprises being quenched and being tempered heat for the composite body Processing, the hardening heat are 1150~1200 DEG C, and the tempering temperature can be 500 DEG C~600 DEG C, and times of tempering can be 2 to 3 times.The quenching and tempering heat treatment can be further improved the hardness and wearability of workpiece, keep the graphene compound High-speed tool steel obtains better comprehensive mechanical performance.

The embodiment of the present invention also provides a kind of graphene high-speed tool steel, can be prepared by above-mentioned preparation method, the stone Black alkene high-speed tool steel includes high-speed tool steel matrix and the graphene compound with the high-speed tool steel matrix, the high speed work Having steel matrix includes ferro element, non-graphite carbon and other elements, and the other elements include Cr, V, Mo, Co and W；? The mass fraction of each component in the graphene composite high speed tool steel are as follows:

Graphene 0.01%~2%；

Non-graphite carbon 1.4%~1.8%；

Cr 4%~5%；

V 4%~5.5%；

Mo 1.5%~2.5%；

Co 7.5%~8.2%；

W 10.2%~12%.

The graphene composite high speed tool steel of the embodiment of the present invention, the two-dimensional nano for being 0.01%~2% by mass fraction Material graphene and high-speed tool steel matrix containing element-specific are uniformly compound, the unique bi-dimensional cellular crystal structure of graphene With high bond strength, make graphene composite high speed tool steel mechanical performance with higher, bending resistance especially with higher is strong Degree, hardness and impact flexibility.

Further, not only the mass fraction of graphene has an impact to the mechanical performance of bimetal, high-speed tool base steel The mass fraction of each element also will affect the mechanical performance of bimetal in body, such as Cr can promote crystal grain to grow up, and lead to steel Brittleness increase, and W can inhibit crystal grain to grow up and play the role of crystal grain refinement, thus avoid the embrittlement of steel.The present invention is real Example is applied by the proportion of various elements in the control graphene and the high-speed tool steel matrix, makes the compound height of the graphene Fast tool steel comprehensive mechanical performance is more excellent.

In one embodiment, in the graphene composite high speed tool steel, the other elements further include Mn and Si, Mass fraction≤0.3% of the Mn, mass fraction≤0.6% of the Si.

The bending strength of the graphene composite high speed tool steel can reach 3800Mpa~4500Mpa, and the graphene is multiple The hardness for closing high-speed tool steel can reach 70HRC~80HRC, and the impact flexibility of the graphene composite high speed tool steel can reach 70J/cm²~90J/cm²。

Embodiment 1

The raw material of following quality is provided, the powder including graphene powder He each element simple substance that can make up high-speed tool steel Totally 1000 grams of body, wherein 2 grams of graphene, 16 grams of agraphitic carbon, 47 grams of Cr, 18 grams of Mo, 49 grams of V, 110 grams of W, Co 80 Gram, 6 grams of Si, 3 grams of Mn, surplus Fe.The average diameter for forming the powder of each element simple substance of high-speed tool steel is 50 μm.

Graphene powder and each element simple substance powder are put into the mixed powder machine of V-type and carry out mixed powder 8h；

It disperses mixed powder in dehydrated alcohol, it is in semisolid that mixture is dried under 40 DEG C of mechanical stirrings Pulp-like is transferred in vacuum drying box and is thoroughly dried, and drying temperature is 100 DEG C, obtains mixed powder；

Mixed powder after drying is fitted into cylindrical steel jacket, and being evacuated to vacuum pressure is 1 × 10^-2After Pa, heating To 600 DEG C, 2h is kept the temperature, is cooled to welding steel capsule sealing sealing after room temperature；

By the steel capsule sealed temperature be 1200 DEG C, pressure be 160MPa under conditions of carry out hip treatment 2 it is small When, mixed powder consolidation is bimetal；

By the steel capsule removal outside the bimetal after hot isostatic pressing, then in 1180 DEG C of progress isothermal forgings, forging speed Rate is 0.01mm/min；

Bimetal after isothermal forging is rolled at 1150 DEG C；

The bimetal rolled is subjected to 1180 DEG C of quenchings, carries out the tempering of 550 DEG C × 1h × 3 time later.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, the results are shown in Table 1.

Embodiment 2

It is essentially identical with the preparation method of embodiment 1, the difference is that, in raw material, form each member of high-speed tool steel The average diameter of the powder of plain simple substance is less than 10 μm.

Measuring Mechanical Properties are carried out to the graphene composite high speed tool steel of preparation, the results are shown in Table 1.It can be with from table 1 Find out, embodiment 1 prepare Steel material bending strength, hardness and in terms of performance all be better than embodiment 2, Illustrate that size controlling is conducive to enhance in the appropriate range the mechanical performance of graphene composite high speed tool steel.

Embodiment 3

It is essentially identical with the raw material and preparation method of embodiment 1, it the difference is that only, disperse mixed powder in After dehydrated alcohol, mixed powder is thoroughly dried to obtain under 100 DEG C of mechanical stirrings directly in open environment.

Measuring Mechanical Properties are carried out to the graphene composite high speed tool steel of preparation, the results are shown in Table 1.It can be with from table 1 Find out, since graphene is there are a degree of oxidation in the drying process of embodiment 3, the Steel material for preparing embodiment 3 Embodiment 1 can be lower than.

Embodiment 4

It is essentially identical with the raw material and preparation method of embodiment 1, it the difference is that only, to mixed after the drying process It closes powder and carries out low temperature ball milling before jacket, the temperature of the low temperature ball milling is -120 DEG C, and Ball-milling Time is 6 hours.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.From table 1 As can be seen that low temperature ball milling is conducive to improve the mechanical performance of high-speed tool steel.

Embodiment 5

It is essentially identical with the raw material and preparation method of embodiment 1, it the difference is that only, to mixed after the drying process It closes powder and carries out room temperature ball milling before jacket, the temperature of the room temperature ball milling is 25 DEG C, and Ball-milling Time is 6 hours.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.From table 1 As can be seen that graphene is unfavorable for improving the mechanicalness of high-speed tool steel there are a degree of oxidation in room temperature mechanical milling process Energy.

Comparative example 1

It is essentially identical with the preparation method of embodiment 1, it the difference is that only, graphene is not added in raw material.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.

Comparative example 2

It is identical as the raw material of embodiment 1, the difference is that, using cold isostatic compaction technique, the preparation method comprises the following steps:

Specifically, the steel for being sealed with mixed powder is prepared under the same conditions by step same as Example 1 Jacket, by steel capsule in 25 DEG C of progress isostatic cool pressing processing, pressure 300MPa, time 10min；Obtained bimetal is existed It is sintered 2h at 1150 DEG C, then carries out isothermal forging same as Example 1, rolling, quenching and tempering step.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.

Comparative example 3

It is identical as the raw material of embodiment 1, the difference is that, using pressure forming and high-sintering process.

Specifically, preparing mixed powder under the same conditions using step same as Example 1.

Mixed powder is fitted into cylindrical die, compaction treatment, pressure maintaining are carried out to mixed powder using 2000T press machine 10min.1150 DEG C of sintering are warming up to green body after extrusion forming, heat preservation 2h obtains bimetal, then carries out and 1 phase of embodiment Same isothermal forging, rolling, quenching and tempering step.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.

Comparative example 4

It is essentially identical with the preparation method of embodiment 1, the difference is that, the temperature of hot isostatic pressing is 850 DEG C.

Measuring Mechanical Properties are carried out to the graphene composite high speed tool steel of preparation, the results are shown in Table 1.

Comparative example 5

It is identical as the preparation method of embodiment 1, it the difference is that only, the quality of Cr is increased to 100 grams in raw material, The Fe for reducing corresponding amount, makes the mass fraction 10% of Cr.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.

Comparative example 6

It is identical as the preparation method of embodiment 1, it the difference is that only, by the Mass lost of W to 50 grams in raw material, increase The Fe for adding corresponding amount makes the mass fraction 5% of W.

Measuring Mechanical Properties are carried out to the graphene steel composite high speed tool steel of preparation, as a result as shown in table 1 below.

Table 1

As it can be seen from table 1 the steel of embodiment preparation are in the mechanical performances such as bending strength, hardness and impact toughness It is better than the steel of comparative example preparation, illustrates addition, the molding technique of consolidation, the temperature of hot isostatic pressing and the element of graphene The proportion of mass fraction is to influence the mechanical key factor of steel to be conducive to make institute by these key factors of comprehensively control Graphene composite high speed tool steel is stated with excellent mechanical performance, bending strength especially with higher, hardness and impact are tough Property.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Protect range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (11)

1. a kind of graphene composite high speed tool steel, which is characterized in that including high-speed tool steel matrix and with the high-speed tool The graphene of base steel bluk recombination, the high-speed tool steel matrix include ferro element, non-graphite carbon and other elements, described Other elements include Cr, V, Mo, Co and W；

The mass fraction of each component in the graphene composite high speed tool steel are as follows:

Graphene 0.01%~2%；

Non-graphite carbon 1.4%~1.8%；

Cr 4%~5%；

V 4%~5.5%；

Mo 1.5%~2.5%；

Co 7.5%~8.2%；

W 10.2%~12%.

2. graphene composite high speed tool steel according to claim 1, which is characterized in that the mass fraction of the graphene It is 0.05~0.5%.

3. graphene composite high speed tool steel according to claim 1, which is characterized in that in the graphene composite high speed In tool steel, the other elements further include Mn and Si, mass fraction≤0.3% of the Mn, and the mass fraction of the Si≤ 0.6%.

4. graphene composite high speed tool steel according to claim 1, which is characterized in that the graphene composite high speed work Have steel by preparing graphene powder and high-speed tool steel powder by hot isostatic pressing after evenly mixing, the hot isostatic pressing Temperature is 950~1300 DEG C.

5. graphene composite high speed tool steel according to claim 4, which is characterized in that the piece diameter of the graphene powder It is 3 μm~40 μm.

6. graphene composite high speed tool steel according to claim 4, which is characterized in that the high-speed tool steel powder Partial size is 10 μm~70 μm.

7. graphene composite high speed tool steel according to claim 1-6, which is characterized in that prepare the graphite The step of alkene composite high speed tool steel includes:

Mixed liquor is provided, the mixed liquor includes volatile organic solvent, graphene powder and high-speed tool steel powder；

It is dried the mixed liquor to obtain mixed powder；

The mixed powder after the drying process is loaded into jacket and vacuumize degassing processing and by the jacket Sealing；

The sealing jacket for being mounted with the mixed powder is subjected to hip treatment, the temperature of the hot isostatic pressing is 950 DEG C ~1300 DEG C, so that the mixed powder forms composite body；And

The composite body is separated with the jacket.

8. graphene composite high speed tool steel according to claim 7, which is characterized in that prepare the compound height of the graphene The step of fast tool steel further include:

The drying process step and it is described vacuumize between degassing processing step, to the mixed powder after the drying process The step of carrying out low temperature ball milling, the temperature of the low temperature ball milling are -80 DEG C~-160 DEG C.

9. graphene composite high speed tool steel according to claim 1, which is characterized in that the graphene composite high speed work The bending strength for having steel is 3800Mpa~4500Mpa.

10. graphene composite high speed tool steel according to claim 1, which is characterized in that the graphene composite high speed The hardness of tool steel is 70HRC~80HRC.

11. graphene composite high speed tool steel according to claim 1, which is characterized in that the graphene composite high speed The impact flexibility of tool steel is 70J/cm²~90J/cm²。