CN104070172A - Method for preparing spherical chromium powder - Google Patents

Method for preparing spherical chromium powder Download PDF

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CN104070172A
CN104070172A CN201410280629.6A CN201410280629A CN104070172A CN 104070172 A CN104070172 A CN 104070172A CN 201410280629 A CN201410280629 A CN 201410280629A CN 104070172 A CN104070172 A CN 104070172A
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powder
gas
chromium
chromium powder
plasma torch
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CN104070172B (en
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杨平
郭创立
聂志林
陈梅
王小军
张航
杨承涛
梁建斌
武旭红
王文斌
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Xi'an Sri advanced copper alloy technology Co., Ltd.
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SHAANXI SIRUI INDUSTRIES Co Ltd
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Abstract

The invention discloses a method for preparing spherical chromium powder. The method includes the following steps that (1) a chromium metal block is selected and mechanically cracked; (2) by means of low temperature brittleness of chromium, chromium metal particles are soaked in liquid nitrogen and meanwhile, subjected to low-temperature vibration grinding; (3) chromium metal powder which is obtained after low-temperature liquid nitrogen grinding is washed for three times by ethyl alcohol, the ethyl alcohol is 500-600 ml each time, and then a vacuum system with filter paper is used for filtering; (4) dried chromium powder particles in the step (3) are placed in a high-energy ball grinding mill for ball milling; (5) a stable argon and carbon monoxide mixed plasma torch is established; (6) the chromium powder after ball milling in the step (4) is carried by argon and carbon monoxide mixed gas to be sprayed in the plasma torch by a feeding gun; (7) the chromium powder which enters the plasma torch is rapidly melted, cooled and solidified to enter a gas-solid separation chamber to be collected. According to the method for preparing the spherical chromium powder, a high-frequency induction coil is applied to the plasma torch, and the prepared spherical chromium powder is low in costs and high in rate of spheroidization.

Description

A kind of preparation method of spherical chromium powder
Technical field
The invention belongs to powder metallurgy and manufacture field, be specifically related to a kind of preparation method of spherical chromium powder.
Background technology
Crome metal is the hardest metal, and common chromium is all very crisp, because wherein contain the oxide of hydrogen or trace.High-purity chromium is but not crisp, but is rich in malleability.Because the hardness of chromium is larger, in high-purity chromium powder process of the ultra-fine grade of preparation, run into significant problem, be difficult to meet and both ensured that purity ensured the requirement of granularity again, however be exactly process time long higher with processing cost.Size, shape and other component contents of chromium powder chromium grain is the principal element that affects the material properties such as spraying, high temperature alloy, diamond tool, ferroalloy, scolder, cermet, carbide alloy, resistance heating alloy, electrical contact.The chromium powder using in the manufacture of materials such as spraying, high temperature alloy, diamond tool, ferroalloy, scolder, cermet, carbide alloy, resistance heating alloy, electrical contact is at present to adopt common mechanical crushing method to manufacture, grain shape is irregular, size distribution degree of segregation is large, other compositions, particularly oxygen, nitrogen content are high, thereby have caused inhomogeneous that under the higher and microcosmic of oxygen and nitrogen content in object material, the each element of alloy distributes.The chromium powder that electrolysis is manufactured, again because oxygen content is higher too high with processing cost, and not universal use aborning.
And in recent years, the demand of spherical powder grows with each passing day, be widely used in the powder metallurgical techniques such as preparation, thermal spraying and the injection moulding of porous material.In field of thermal spray, spherical powder not only mobility is fine, and the coating obtaining has better wearability.But the technology of the spherical chromium powder of existing preparation is all immature, make the cost of spherical chromium powder higher, and the obvious chap of chromium powder particle after treatment.
Summary of the invention
The object of the invention is to overcome the deficiency that prior art exists, a kind of preparation method of spherical chromium powder with low cost, that nodularization rate is high is provided, and can realizes quantity-produced industrialization.
For achieving the above object, the present invention completes by following technical solution, a kind of preparation method of spherical chromium powder, and it comprises the following steps:
1) select crome metal piece, remove surperficial flaw-piece, oxide-film and nitrogen film; Then utilize, with the hydraulic pressure boulder crusher of water-circulating cooling device, chromium piece is carried out to Mechanical Crushing, make it be broken into the particle below 3mm;
2) utilize the black brittleness of chromium, crome metal particle is immersed in liquid nitrogen, carry out low temperature vibro-grinding, this low temperature vibro-grinding is that vibromill Shell Lining and the abrasive body that the high tenacity ceramic material that utilizes nanometer A12O3 to mix with ZrO2 to make makes carries out simultaneously, and the time is 3~5 hours;
3) by ethanol washing three times for the hafnium metal powfer after low temperature liquid nitrogen grinding, each consumption is 500~600ml, then use with the vacuum system of filter paper and filter, then in vacuum drying oven, be under 94.5~96.5KPa, to carry out low temperature drying 5 hours at 80 DEG C, vacuum, until moisture content is down to below 1%;
4) by step 3) in dried chromium powder particle insert high energy ball mill and carry out ball milling, ratio of grinding media to material 20: 1, abrasive media is sintered carbide ball, liner is zirconia material, in mechanical milling process, pass into argon shield, gas flow is 10~15m3/h, and rotating speed is 450~550r/min, and Ball-milling Time is 45~50 hours;
5) set up stable argon gas and carbon monoxide hybrid plasma torch, both volume ratios are 1: 1; The input flow rate of setting up the needed reacting gas argon gas of this plasma torch and carbon monoxide is 55slpm~60slpm, and the high voltage loading on induction coil is 6kV~8kV; Reacting gas input flow rate when described argon gas and the stable operation of carbon monoxide hybrid plasma is 35slpm~45slpm, protective gas 30slpm~50slpm, and system negative pressure is 150mm mercury column~200mm mercury column;
6) by step 4) in chromium powder powder after ball milling carry through feeding gun and spray into plasma torch with argon gas and Co mixed gas; Chromium powder powder average grain diameter after ball milling is 5~10 μ m, and carrying gas control flow is 4slpm~6slpm, and the control flow of chromium powder powder is 40g/min~50g/min;
7) the chromium powder powder that enters plasma torch absorbed a large amount of heat and melts rapidly in the extremely short time, and entered fast after heat-exchanging chamber cooled and solidified, then entered in gas solid separation chamber and be collected.
Preferably, step 3) in filter paper used be the graceful #50 filter paper of water.
In above-mentioned arbitrary scheme preferably, step 4) in abrasive media be zirconia or agate; The rotating speed of high energy ball mill is 500r/min, and Ball-milling Time is 48 hours.
In above-mentioned arbitrary scheme preferably, step 5) in plasma torch adopt radio-frequency induction coil, it is on the quartz ampoule of ventilation, there is Wilson sealing the upper end of quartz ampoule, in sealing, have telescopic hollow pipe be connected to atmospheric isolation for powder chamber; Under the incentive action of radio-frequency induction coil, the gas in quartz ampoule is transformed into the plasma of high temperature, and the powder smelting of sending here for powder chamber is become to drop the afterbody ejection from quartz ampoule.
In above-mentioned arbitrary scheme preferably, step 7) in heat-exchanging chamber be double-layer stainless steel sleeve pipe, in sleeve pipe, reverse water flowing is cooling, sleeve pipe top dress inlet flange tangential admission, by regulating inflow temperature and air inflow regulation and control cooling effect, cold in-water temperature 10-20 DEG C, cold gas adopts inert gas Ar, and flow is 3-6m 3/ h.
Beneficial effect of the present invention:
1. technique of the present invention is simple, and cost is lower, can accomplish scale production.
2. by setting up stable argon gas and carbon monoxide plasma, regulate plasma parameter, thereby chromium powder raw material is heated, after cooling curing, separate and obtain fine globular chromium powder, the chromium powder obtaining has than the better mobility of the former powder of chromium, higher density, purity and particle surface fineness, and powder particle porosity is low; The shape that can change chromium powder particle by the method that the present invention proposes, nodularization rate is high, and has increased the apparent density of powder, has increased chromium powder mobility, has improved the physical property of chromium powder, and with low cost.
3. not only product is spherical chromium powder, does not need in addition the processing through calcining and other middle process, and technological process is short, has shortened the production cycle, and operation continous-stable, has improved production efficiency.
Brief description of the drawings
Fig. 1 is the SEM shape appearance figure before the Cr sphere of powder;
Fig. 2 is the Laser particle-size distribution figure before the Cr sphere of powder;
Fig. 3 is the SEM shape appearance figure after the Cr sphere of powder;
Fig. 4 is the Laser particle-size distribution figure after the Cr sphere of powder;
Fig. 5 is the Laser particle-size distribution curve map after the Cr sphere of powder.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the invention will be further described.
Embodiment 1
A preparation method for spherical chromium powder, it comprises the following steps:
1) select crome metal piece, remove surperficial flaw-piece, oxide-film and nitrogen film; Then utilize, with the hydraulic pressure boulder crusher of water-circulating cooling device, chromium piece is carried out to Mechanical Crushing, make it be broken into the particle below 3mm;
2) utilize the black brittleness of chromium, crome metal particle is immersed in liquid nitrogen, carry out low temperature vibro-grinding, this low temperature vibro-grinding is that vibromill Shell Lining and the abrasive body that the high tenacity ceramic material that utilizes nanometer A12O3 to mix with ZrO2 to make makes carries out simultaneously, and the time is 3 hours;
3) by ethanol washing three times for the hafnium metal powfer after low temperature liquid nitrogen grinding, each consumption is 600ml, then use with the vacuum system of the graceful #50 filter paper of water and filter, then in vacuum drying oven, be under 94.5KPa, to carry out low temperature drying 5 hours at 80 DEG C, vacuum, until moisture content is down to below 1%;
4) by step 3) in dried chromium powder particle insert high energy ball mill and carry out ball milling, ratio of grinding media to material 20: 1, abrasive media is sintered carbide ball, liner is zirconia material, in mechanical milling process, pass into argon shield, gas flow is 15m3/h, and rotating speed is 500r/min, and Ball-milling Time is 48 hours;
5) set up stable argon gas and carbon monoxide hybrid plasma torch, both volume ratios are 1: 1; This mist can form the magnetic coupling of gas, and the input flow rate of setting up the needed reacting gas argon gas of this plasma torch and carbon monoxide is 55slpm, and the high voltage loading on induction coil is 8kV; Reacting gas input flow rate when described argon gas and the stable operation of carbon monoxide hybrid plasma is 35slpm, protective gas 50slpm, and system negative pressure is 150mm mercury column; Plasma torch adopts radio-frequency induction coil, and it is on the quartz ampoule of ventilation, and there is Wilson sealing the upper end of quartz ampoule, in sealing, have telescopic hollow pipe be connected to atmospheric isolation for powder chamber; Under the incentive action of radio-frequency induction coil, the gas in quartz ampoule is transformed into the plasma of high temperature, and the powder smelting of sending here for powder chamber is become to drop the afterbody ejection from quartz ampoule;
6) by step 4) in chromium powder powder after ball milling carry through feeding gun and spray into plasma torch with argon gas and Co mixed gas; Chromium powder powder average grain diameter after ball milling is 10 μ m, and carrying gas control flow is 4slpm, and the control flow of chromium powder powder is 50g/min;
7) the chromium powder powder that enters plasma torch absorbed a large amount of heat and melts rapidly in the extremely short time, and entered fast after heat-exchanging chamber cooled and solidified, then entered in gas solid separation chamber and be collected.Heat-exchanging chamber is double-layer stainless steel sleeve pipe, and the interior reverse water flowing of sleeve pipe is cooling, sleeve pipe top dress inlet flange tangential admission, and by regulating inflow temperature and air inflow regulation and control cooling effect, 10 DEG C of cold in-water temperatures, cold gas adopts inert gas Ar, and flow is 6m 3/ h.
Embodiment 2
A preparation method for spherical chromium powder, it comprises the following steps:
1) select crome metal piece, remove surperficial flaw-piece, oxide-film and nitrogen film; Then utilize, with the hydraulic pressure boulder crusher of water-circulating cooling device, chromium piece is carried out to Mechanical Crushing, make it be broken into the particle below 3mm;
2) utilize the black brittleness of chromium, crome metal particle is immersed in liquid nitrogen, carry out low temperature vibro-grinding, this low temperature vibro-grinding is that vibromill Shell Lining and the abrasive body that the high tenacity ceramic material that utilizes nanometer A1203 to mix with Zr02 to make makes carries out simultaneously, and the time is 5 hours;
3) by ethanol washing three times for the hafnium metal powfer after low temperature liquid nitrogen grinding, each consumption is 500ml, then use with the vacuum system of the graceful #50 filter paper of water and filter, then in vacuum drying oven, be under 96.5KPa, to carry out low temperature drying 5 hours at 80 DEG C, vacuum, until moisture content is down to below 1%;
4) by step 3) in dried chromium powder particle insert high energy ball mill and carry out ball milling, ratio of grinding media to material 20: 1, abrasive media is sintered carbide ball, liner is zirconia material, in mechanical milling process, pass into argon shield, gas flow is 10m3/h, and rotating speed is 450~550r/min, and Ball-milling Time is 45~50 hours;
5) set up stable argon gas and carbon monoxide hybrid plasma torch, both volume ratios are 1: 1; This mist can form the magnetic coupling of gas, and the input flow rate of setting up the needed reacting gas argon gas of this plasma torch and carbon monoxide is 60slpm, and the high voltage loading on induction coil is 6kV; Reacting gas input flow rate when described argon gas and the stable operation of carbon monoxide hybrid plasma is 45slpm, protective gas 30slpm, and system negative pressure is 200mm mercury column; Plasma torch adopts radio-frequency induction coil, and it is on the quartz ampoule of ventilation, and there is Wilson sealing the upper end of quartz ampoule, in sealing, have telescopic hollow pipe be connected to atmospheric isolation for powder chamber; Under the incentive action of radio-frequency induction coil, the gas in quartz ampoule is transformed into the plasma of high temperature, and the powder smelting of sending here for powder chamber is become to drop the afterbody ejection from quartz ampoule;
6) by step 4) in chromium powder powder after ball milling carry through feeding gun and spray into plasma torch with argon gas and Co mixed gas; Chromium powder powder average grain diameter after ball milling is 5 μ m, and carrying gas control flow is 6slpm, and the control flow of chromium powder powder is 40g/min;
7) the chromium powder powder that enters plasma torch absorbed a large amount of heat and melts rapidly in the extremely short time, and entered fast after heat-exchanging chamber cooled and solidified, then entered in gas solid separation chamber and be collected.Heat-exchanging chamber is double-layer stainless steel sleeve pipe, and the interior reverse water flowing of sleeve pipe is cooling, sleeve pipe top dress inlet flange tangential admission, and by regulating inflow temperature and air inflow regulation and control cooling effect, 20 DEG C of cold in-water temperatures, cold gas adopts inert gas Ar, and flow is 3m 3/ h.
In addition, described quartz ampoule in the present invention is by interior quartz ampoule, middle quartz ampoule and outer quartz ampoule is coaxially arranged forms, outer quartz ampoule is connected with interior quartz ampoule lower end, between the lower end of middle quartz ampoule and outer quartz ampoule and the bottom of interior quartz ampoule, leave circulation gap, make between interior quartz ampoule and middle quartz ampoule, the cooling duct that forms quartz ampoule external member between middle quartz ampoule and outer quartz ampoule is provided with cooling water import and export on fixture, and they communicate with the cooling duct of quartz ampoule.
Described plasma in the present invention excite and maintain be to outer quartz ampoule external spiral shape around air core coil pass into radio-frequency current, from being built in, quartz ampoule coaxial interior quartz ampoule pass into ignition gas, with the exciting of the sparker of outer quartz ampoule outer wall vertical under, radio-frequency current is the inner induced field that forms of quartz ampoule outside, excites ionization to form radio frequency glow discharge inductively coupled plasma ignition gas.
The collection of described spherical chromium powder is the negative blast stainless steel pipes transmission of spherical chromium powder, refers under the negative Action of Wind pressure of air exhauster, enters in powder catcher by the transmission of " Z " font double layer hollow stainless steel pipes; Stainless steel tube hollow sandwich leads to circulating water, " Z " font design balance of double layer hollow stainless steel transmission pipeline the negative Action of Wind pressure of air exhauster, maintain the stable of radio frequency plasma flame in large quartz ampoule and reduce reaction end gas in the lip-deep absorption of dusty material.Described powder catcher is to adopt impulse electromagnetic valve to coordinate glass fiber filter cloth bag and air exhauster to carry out work, " Z " type length of the power of air exhauster and stainless steel transmission pipeline, the surface area of powder collection filter bag are positively related, in powder catcher nano-powder material by under the effect of glass fiber filter cloth bag and electromagnetic impulse valve with reaction end gas surface desorption, reaction end gas enters vertical spray tower under the negative Action of Wind pressure of air exhauster.In the vertical spray tower of described reaction end gas and absorb process refer to plasma chemical reaction produce tail gas in powder catcher with nano-powder material surface desorption after, enter vertical spray tower under the negative Action of Wind pressure of air exhauster in and absorption plant, during reaction end gas and neutralization solution system occur and chemical reaction, eliminate reaction end gas, reach environment protection emission requirement.
Following table is the testing result contrast of plasma spheroidization Cr powder and original chromium powder.
Table 1
(1) chemical composition
(2) physical property
As can be seen here, adopt spherical chromium powder density and the purity making of the present invention higher, mobility is better, and nodularization rate is high.Show thus, the parameters in the inventive method is all optimal selections, can realize the optimal effectiveness of the inventive method.
The above, be only preferred embodiment of the present invention, is not the restriction of the present invention being made to other form, and any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the equivalent embodiment of equivalent variations.But every technical solution of the present invention content that do not depart from, any simple modification, equivalent variations and the remodeling above embodiment done according to technical spirit of the present invention, still belong to the protection domain of technical solution of the present invention.

Claims (5)

1. a preparation method for spherical chromium powder, is characterized in that comprising the following steps:
1) select crome metal piece, remove surperficial flaw-piece, oxide-film and nitrogen film; Then utilize, with the hydraulic pressure boulder crusher of water-circulating cooling device, chromium piece is carried out to Mechanical Crushing, make it be broken into the particle below 3mm;
2) utilize the black brittleness of chromium, crome metal particle is immersed in liquid nitrogen, carry out low temperature vibro-grinding, this low temperature vibro-grinding is that vibromill Shell Lining and the abrasive body that the high tenacity ceramic material that utilizes nanometer A12O3 to mix with ZrO2 to make makes carries out simultaneously, and the time is 3~5 hours;
3) by ethanol washing three times for the hafnium metal powfer after low temperature liquid nitrogen grinding, each consumption is 500~600ml, then use with the vacuum system of filter paper and filter, then in vacuum drying oven, be under 94.5~96.5KPa, to carry out low temperature drying 5 hours at 80 DEG C, vacuum, until moisture content is down to below 1%;
4) by step 3) in dried chromium powder particle insert high energy ball mill and carry out ball milling, ratio of grinding media to material 20: 1, abrasive media is sintered carbide ball, liner is zirconia material, in mechanical milling process, pass into argon shield, gas flow is 10~15m3/h, and rotating speed is 450~550r/min, and Ball-milling Time is 45~50 hours;
5) set up stable argon gas and carbon monoxide hybrid plasma torch, both volume ratios are 1: 1; The input flow rate of setting up the needed reacting gas argon gas of this plasma torch and carbon monoxide is 55slpm~60slpm, and the high voltage loading on induction coil is 6kV~8kV; Reacting gas input flow rate when described argon gas and the stable operation of carbon monoxide hybrid plasma is 35slpm~45slpm, protective gas 30slpm~50slpm, and system negative pressure is 150mm mercury column~200mm mercury column;
6) by step 4) in chromium powder powder after ball milling carry through feeding gun and spray into plasma torch with argon gas and Co mixed gas; Chromium powder powder average grain diameter after ball milling is 5~10 μ m, and carrying gas control flow is 4slpm~6slpm, and the control flow of chromium powder powder is 40g/min~50g/min;
7) the chromium powder powder that enters plasma torch absorbed a large amount of heat and melts rapidly in the extremely short time, and entered fast after heat-exchanging chamber cooled and solidified, then entered in gas solid separation chamber and be collected.
2. the preparation method of spherical chromium powder according to claim 1, is characterized in that step 3) in filter paper used be the graceful #50 filter paper of water.
3. the preparation method of spherical chromium powder according to claim 1 and 2, is characterized in that step 4) in abrasive media be zirconia or agate; The rotating speed of high energy ball mill is 500r/min, and Ball-milling Time is 48 hours.
4. the preparation method of spherical chromium powder according to claim 3, it is characterized in that step 5) in plasma torch adopt radio-frequency induction coil, it is on the quartz ampoule of ventilation, there is Wilson sealing the upper end of quartz ampoule, in sealing, have telescopic hollow pipe be connected to atmospheric isolation for powder chamber; Under the incentive action of radio-frequency induction coil, the gas in quartz ampoule is transformed into the plasma of high temperature, and the powder smelting of sending here for powder chamber is become to drop the afterbody ejection from quartz ampoule.
5. the preparation method of spherical chromium powder according to claim 3, it is characterized in that step 7) in heat-exchanging chamber be double-layer stainless steel sleeve pipe, in sleeve pipe, reverse water flowing is cooling, sleeve pipe top dress inlet flange tangential admission, by regulating inflow temperature and air inflow regulation and control cooling effect, cold in-water temperature 10-20 DEG C, cold gas adopts inert gas Ar, and flow is 3-6m 3/ h.
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