CN104962770A

CN104962770A - Preparation method of crude crystal tungsten-cobalt alloy

Info

Publication number: CN104962770A
Application number: CN201510386946.0A
Authority: CN
Inventors: 肖华; 单水桃; 周汉凡
Original assignee: Hunan Shiji Tungsten Material Co Ltd
Current assignee: Hunan Shiji Tungsten Material Co Ltd
Priority date: 2010-11-13
Filing date: 2010-11-13
Publication date: 2015-10-07
Also published as: CN101985717B; CN101985717A; CN104928512B; CN104928512A

Abstract

The invention provides a preparation method of a crude crystal tungsten-cobalt alloy. The preparation method comprises the following process steps: preparing materials; wetly grinding; drying; pre-burning; wetly mixing; drying; doping a forming agent; granulating; pressing and molding; and integrally sintering in vacuum and at low pressure. In the material preparation process, cobalt powder and tungsten carbide powder are mixed and prepared, and the mass ratio of the cobalt powder and the tungsten carbide powder is (2.4 to 2.6) to (97.4 to 97.6); the metal cobalt powder and Co2W4C nano particles are added into the pre-burnt mixture and the mass ratio of cobalt to tungsten carbide in the mixture is (8 to 13) to (87 to 92); the adding amount of the Co2W4C nano particles needs to enable the mass ratio of the cobalt in the mixture to the Co2W4C nano particles to be 1 to (0.045 to 0.055). With the adoption of the technical scheme, compared with the prior art, the WC average grain size of a prepared hard alloy is 4.0 to 5.2 microns, the flexure strength is 3000 to 3400MPa and the hardness HRA is 88.0-90.8.

Description

A kind of preparation method of coarse-grain tungsten cobalt alloy

Technical field

The present invention relates to a kind of preparation method of Wimet, particularly a kind of preparation method of coarse-grain tungsten cobalt alloy.

Background technology

Along with the development of hard carbide industry, more and more higher to the requirement of its raw material WC powder (i.e. tungsten carbide powder).Particularly the preparation of super thick type Wimet, has strict requirement to the granularity of WC powder, and at present, the aggregation extent of WC powder is higher, and powder size is thick not, and coarsness WC powder all exists WC particle aggregate.Due to the existence of aggregate, easily cause Fei Shi mean particle size large, and the illusion that actual particle size is partially thin.In addition the differing in conjunction with tightness of aggregate, thus increases the manufacture difficulty of high-quality Wimet, makes hard metal article difficult unification accomplishing height in wear resistance and toughness.And the large height of WC powder cost of import, be unfavorable for domestic large-scale production.The crystal grain of the coarse-grain tungsten-cobalt hard alloy through operation productions such as wet-milling, drying, compression moulding, vacuum sinterings generally adopted so current is maximum is also between 3.2 ~ 4.0 μm.Bending strength 2600 ~ 3000MPa, hardness Hv ₃₀1150 ~ 1320, intensity and microhardness are mated poor, and over-all properties is lower, especially the hot hardness of alloy and hot strength not high, shock resistance and heat resistanceheat resistant flow ability poor, difficult being applicable to, works in high temperature environments, greatly constrains the range of application of Wimet.

Summary of the invention

The object of the invention is to overcome the above-mentioned deficiency of prior art and a kind of preparation method of coarse-grain tungsten cobalt alloy is provided, the WC mean grain size of the Wimet prepared by it reaches 4.0 ~ 5.2 μm, bending strength reaches 3000 ~ 3400MPa, hardness HRA88.0 ~ 90.8, the matched well of alloy strength and microhardness can be realized, make hard metal article in wear resistance and toughness, reach the unification of height, improve the comprehensive use properties of alloy.

Technical scheme of the present invention is: a kind of preparation method of coarse-grain tungsten cobalt alloy, and it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Cobalt powder and tungsten carbide powder is selected to carry out mix during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.4 ~ 2.6: 97.4 ~ 97.6, tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.0 ~ 18.5 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling; Carry out drying after wet-milling, the compound obtained after drying carries out preheating; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 8 ~ 13: 87 ~ 92, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.045 ~ 0.055.

The preferred technical solution of the present invention is: ball-milling medium during described wet-milling is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 7 ~ 12 hours.

The further optimal technical scheme of the present invention is: described preheating reaches 700 ~ 850 DEG C for heating up through 3 ~ 4 hours, then is incubated 55 ~ 65 minutes.

The present invention further optimal technical scheme is: add metal cobalt powder and Co again in the compound after preheating ₂w ₄58 ~ 62 DEG C to be heated to after C nano particle and carry out wet mixing 3.5 ~ 4.5 hours.

The present invention also further optimal technical scheme is: the top temperature of described vacuum low-pressure integral sintering is 1440 ~ 1460 DEG C.

The present invention also further optimal technical scheme is: select the mass ratio of cobalt powder and tungsten carbide powder to be 2.5: 97.5 during batching; Tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.5 ~ 15.5 μm; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 9 ~ 11.5: 88.5 ~ 91, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.048 ~ 0.052.

The explanation of the primary symbols that the present invention uses or title:

WC: wolfram varbide;

Fsss granularity: Fsss Full Name in English is Fisher Sub-sieve Sizer, i.e. " Fei Shi sieve " granularity of measuring;

Co: cobalt;

WC powder: tungsten carbide powder.

The present invention compared with prior art has following features:

The present invention adopts Fsss granularity to be granularity 1.4 ~ 2.0 μm of metal Co powder of 13.0 ~ 18.5 μm of common coarse-grained WC powder close to monocrystalline and mass percent 2.5%; The preheating operation simultaneously increased improves WC particle by the parcel degree of cobalt, slow down the irregular of WC grain in sintering process and grows up, and makes the pattern before WC maintenance sintering; Be aided with wet mixing operation to be deployed in target cobalt amount and cobalt and to mix Co ₂w ₄c nano particle can strengthen Binder Phase, alleviate alloy crack propagation in use, the mean particle size of WC in the extra-coarse grained carbide alloy finally obtained is made to reach 4.0 ~ 5.2 μm, toughness is high, and perfect crystalline, defect is few, microstrain is little, subgrain is thick evenly, microhardness is high, its wear resistance and toughness are greatly improved, bending strength reaches 3000 ~ 3400MPa, hardness reaches HRA88.0 ~ 90.8, achieve the matched well of intensity and microhardness, thus alloy over-all properties is improved widely; Because high tenacity of the present invention surpasses coarse-grain Wimet by controlling cobalt and Co ₂w ₄the mixed ratio of C nano particle, both enhanced the intensity of Binder Phase and improved intergranular microtexture, put forward heavy alloyed toughness and wear resistance, more significantly improve the thermal shock resistance of alloy, make the steady quality such as mine, digging tool shield structure cutter, pick being surpassed the manufacture of coarse-grain Wimet by high tenacity of the present invention, its work-ing life extends more than 30%, greatly expands the use range of Wimet.

In order to be illustrated more clearly in the present invention, enumerate following examples, but it is without any restrictions to scope of invention.

Embodiment

Embodiment 1:

A preparation method for coarse-grain tungsten cobalt alloy, it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Select cobalt powder and tungsten carbide powder (WC powder) during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.5: 97.5, and tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.0 ~ 13.5 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling, and ball-milling medium is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 7 hours; Carry out drying after wet-milling, the compound obtained after drying carries out preheating, and preheating heated up through 4 hours and reaches 700 ~ 850 DEG C, then was incubated 60 minutes; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach makes the mass ratio of the cobalt in compound and wolfram varbide be 8: 92 (namely will comprise the cobalt powder that the ratio being first 2.5: 97.5 with the mass ratio of cobalt powder and tungsten carbide powder has added, that is the mass ratio that the cobalt powder added specifically will meet cobalt powder sum and the wolfram varbide added for twice is 8: 92, following examples are synonym therewith), Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.045, and is heated to 60 DEG C of wet mixings 4 hours; Again drying, mix binder, granulation, compression moulding, vacuum low-pressure integral sintering, the top temperature of vacuum low-pressure integral sintering is 1460 DEG C.

The high tenacity obtained by the present embodiment is surpassed coarse-grain tungsten-cobalt hard alloy (compact dimensions is the standard prod of 6.5*5.25*20 μm) 100, sample to detect, obtain that WC mean grain size is 4.0 μm, average bending strength is 3000MPa, average hardness is HRA90.8.

Embodiment 2:

A preparation method for coarse-grain tungsten cobalt alloy, it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Select cobalt powder and tungsten carbide powder (WC powder) during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.4: 97.6, and tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.5 ~ 15.5 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling, and ball-milling medium is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 8 hours; Carry out drying after wet-milling, the compound obtained after drying carries out preheating, and preheating heated up through 4 hours and reaches 800 DEG C, then was incubated 60 minutes; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 9: 91, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.048, and is heated to 60 DEG C of wet mixings 4 hours; Again drying, mix binder, granulation, compression moulding, vacuum low-pressure integral sintering, the top temperature of vacuum low-pressure integral sintering is 1450 DEG C.

The high tenacity obtained by the present embodiment is surpassed coarse-grain tungsten-cobalt hard alloy (compact dimensions is the standard prod of 6.5*5.25*20 μm) 100, sample to detect, obtain that WC mean grain size is 4.5 μm, average bending strength is 3200MPa, average hardness is HRA89.5.

Embodiment 3:

A preparation method for coarse-grain tungsten cobalt alloy, it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Select cobalt powder and tungsten carbide powder (WC powder) during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.6: 97.4, and tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 15.5 ~ 17.2 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling, and ball-milling medium is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 9 hours; Carry out drying after wet-milling, the compound obtained after drying carries out preheating, and preheating heated up through 4 hours and reaches 750 DEG C, then was incubated 60 minutes; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 9.5: 90.5, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.050, and is heated to 58 ~ 62 DEG C of wet mixings 4 hours; Again drying, mix binder, granulation, compression moulding, vacuum low-pressure integral sintering, the top temperature of vacuum low-pressure integral sintering is 1450 DEG C.

The high tenacity obtained by the present embodiment is surpassed coarse-grain tungsten-cobalt hard alloy (compact dimensions is the standard prod of 6.5*5.25*20 μm) 100, sample to detect, obtain that WC mean grain size is 4.8 μm, average bending strength is 3200MPa, average hardness is HRA89.0.

Embodiment 4:

A preparation method for coarse-grain tungsten cobalt alloy, it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Select cobalt powder and tungsten carbide powder (WC powder) during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.5: 97.5, and tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 17.2 ~ 18.0 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling, and ball-milling medium is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 10 hours; Carry out drying after wet-milling, the compound obtained after drying carries out preheating, and preheating heated up through 3 hours and reaches 700 DEG C, then was incubated 55 ~ 65 minutes;

Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 11.5: 88.5, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.052, and is heated to 58 ~ 62 DEG C of wet mixings 4 hours; Again drying, mix binder, granulation, compression moulding, vacuum low-pressure integral sintering, the top temperature of vacuum low-pressure integral sintering is 1450 DEG C.

The high tenacity obtained by the present embodiment is surpassed coarse-grain tungsten-cobalt hard alloy (compact dimensions is the standard prod of 6.5*5.25*20 μm) 100, sample to detect, obtain that WC mean grain size is 5.2 μm, average bending strength is 3400MPa, average hardness is HRA88.5.

Embodiment 5:

A preparation method for coarse-grain tungsten cobalt alloy, it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Select cobalt powder and tungsten carbide powder (WC powder) during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.5: 97.5, and tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 18.0 ~ 18.5 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling, and ball-milling medium is acetone, and the ratio of ball material is 3: 1, and the ratio of solid-liquid is 5: 1, and the wet-milling time is 12 hours; Carry out drying after wet-milling, the compound obtained after drying carries out preheating, and preheating heated up through 3 hours and reaches 700 DEG C, then was incubated 60 minutes; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 13: 87, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.055, and is heated to 60 DEG C of wet mixings 3.5 ~ 4.5 hours; Again drying, mix binder, granulation, compression moulding, vacuum low-pressure integral sintering, the top temperature of vacuum low-pressure integral sintering is 1440 DEG C.

The high tenacity obtained by the present embodiment is surpassed coarse-grain tungsten-cobalt hard alloy (compact dimensions is the standard prod of 6.5*5.25*20 μm) 100, sample to detect, obtain that WC mean grain size is 5.0 μm, average bending strength is 3300MPa, average hardness is HRA88.0.

Claims

1. a preparation method for coarse-grain tungsten cobalt alloy, is characterized in that: it comprises following processing step: batching, wet-milling, drying, preheating, wet mixing, drying, mix binder, granulation, compression moulding and vacuum low-pressure integral sintering; Cobalt powder and tungsten carbide powder is selected to carry out mix during batching, the mass ratio of cobalt powder and tungsten carbide powder is 2.4 ~ 2.6: 97.4 ~ 97.6, tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.0 ~ 18.5 μm, and the granularity of cobalt powder is 1.4 ~ 2.0 μm; Wet-milling is ball milling; Carry out drying after wet-milling, the compound obtained after drying carries out preheating; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 8 ~ 13: 87 ~ 92, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.045 ~ 0.055; Described preheating reaches 700 ~ 850 DEG C for heating up through 3 ~ 4 hours, then is incubated 55 ~ 65 minutes.

2. the preparation method of coarse-grain tungsten cobalt alloy according to claim 1, is characterized in that: the top temperature of described vacuum low-pressure integral sintering is 1440 ~ 1460 DEG C.

3. the preparation method of coarse-grain tungsten cobalt alloy according to claim 1 and 2, is characterized in that: select the mass ratio of cobalt powder and tungsten carbide powder to be 2.5: 97.5 during batching; Tungsten carbide powder selects Fsss granularity to be the Coarse Grain Tungsten Carbide of 13.5 ~ 15.5 μm; Compound after preheating is added metal cobalt powder and Co again ₂w ₄c nano particle, the add-on of cobalt powder will reach and make the mass ratio of the cobalt in compound and wolfram varbide be 9 ~ 11.5: 88.5 ~ 91, Co ₂w ₄the add-on of C nano particle will reach and make cobalt in compound and Co ₂w ₄the mass ratio of C nano particle is 1: 0.048 ~ 0.052.