CN1552548A - Preparation of nano nickle powder by micro-wave activated aqueous solution reduction process - Google Patents
Preparation of nano nickle powder by micro-wave activated aqueous solution reduction process Download PDFInfo
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- CN1552548A CN1552548A CNA2003101211393A CN200310121139A CN1552548A CN 1552548 A CN1552548 A CN 1552548A CN A2003101211393 A CNA2003101211393 A CN A2003101211393A CN 200310121139 A CN200310121139 A CN 200310121139A CN 1552548 A CN1552548 A CN 1552548A
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- aqueous solution
- nickel powder
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Abstract
A process for preparing the Ni nanoparticles by microwave activation and aqueous solution reduction includes such steps as dissolving Ni ions contained NiSO4 in water, reducing Ni ions to Ni nanoparticles by N2H4.H2O under the action of microwave, water washing to remove residual SO4 ions, dewatering by alcohol, fast centrifugal separating of waste liquid from deposit, and baking in vacuum and vibration condition.
Description
Technical field
The invention belongs to metal dust preparing technical field in the metal material, particularly provide a kind of microwave activation-aqueous solution reducing process to prepare the method for nano-nickel powder, be applicable to the suitability for industrialized production of nanoscale nickel powder.
Background technology
Develop rapidly along with high-tech, the range of application of nano level superfine nickel powder is extensive further, as in nickel-hydrogen fuel cell industry.Countries in the world will need 20,000 tons nano-nickel powder every year.In the Canada and the U.S., on bus, used the Ni-MH battery energy to replace gasoline fully, significantly improved the traffic pollution in city.Nano-nickel powder is extensively adopted by modern military industry aspect electro-magnetic wave absorption and stealth material.The extraordinary filtering material and the device in the foam metal material of various high porosities, particularly ultra micro aperture and nanoscale aperture are difficult problems that presses for solution in the development in Hi-Tech in recent years.Especially bioengineering and virus filtration special material, and a large amount of multiple efficient nano Raney nickels that adopt of chemical industry etc. are all directly related with nano-nickel powder.
At novel ultra-fine grain WC-Ni, TiC-Ni carbide alloy, novel ultra-fine grain W-Ni-Cu high-density alloy, memorial alloy.The advanced composite material (ACM) of pottery, plastics and nickel, Ni-Al spraying alloy powder etc. increase rapidly to the demand of nano-nickel powder.Estimate that countries in the world will be above 150000 tons/year to the demand of nano-nickel powder in nearly 5 years.
Traditional nickel powder production technology mainly contains four classes: 1, electrolysis prepares nickel powder (granularity 20~500 μ m).2, carbonyl process prepares nickel powder (1.5~10 μ m).3, reducing process prepares nickel powder (comprising the High Pressure Hydrogen reduction, nickel oxalate or nickel oxide reduction, granularity 2~20 μ m).4, atomization prepares nickel powder (comprise aerosolization, the atomizing of water atomization centrifugal atomizing rotation electrode is hit at a high speed and pulverized granularity 30~300 μ m).The nickel powder granularity of producing with carbonyl process in the said method is the thinnest but because of the cost height, had a strong impact on its range of application.According to the literature searches in nearly ten years as can be known, in recent years in order to satisfy the needs of development in Hi-Tech, both at home and abroad existing a lot of scholar's research the technology of preparing of different nano-nickel powder, as: vacuum evaporation technique (comprises plasma evaporation, laser evaporation, the high-frequency induction evaporation); Microemulsion technology; The aqueous solution-reduction technique etc.These technology all can be prepared nano-nickel powder.But the pluses and minuses of having nothing in common with each other are can more large batch of production nano-nickel powder as the characteristics of vacuum evaporation technique, and granularity is more even, and shortcoming is that equipment investment is big, powder size thick (200~1500nm).The advantage of microemulsion technology is a nickel powder fine size (50~150nm), but cost is too high, is 5~20 times of conventional method.Reduction reaction time while is long, and the separation of mother liquor separates very difficult with the cleaning of slip, and production efficiency is very low.
The aqueous solution-reduction technique, (granularity 30~150nm), its advantage are that cost is relatively low also can to produce nano-nickel powder, do not need complex device, but that shortcoming is still the reduction reaction time is long, the separation of mother liquor and the cleaning of slip, separate very difficultly, production efficiency is also very low.
Know-why of the present invention still belongs to the solution reduction method, but the purpose of invention is in order to shorten the time of solution reduction reaction significantly, and solves that mother liquor separates and the problem of slip cleaning separation difficulty, and present technique was not reported in the domestic and foreign literature in nearly ten years.
Summary of the invention:
The objective of the invention is to: provide a kind of microwave activation-aqueous solution reducing process to prepare the technology of average grain diameter≤100nm nanometer grade powder nickel.This ratio juris is: the salt NiSO that will contain nickel ion earlier
4Water-soluble, use N
2H
4H
2The O hydrazine can provide the characteristics of electronics in the aqueous solution under the effect of microwave field vigor, apace with Ni
+ 2Ion is reduced into superfine Ni particle.SO in the product
4 2-Radical ion is cleaned out by water.And deviate from residual water with ethanol, and adopt the method for the quick centrifugation of continous way that waste liquid is separated with sediment, (2~10Pa, 200~300 ℃) oven dry can obtain nano-nickel powder in vacuum vibration drying machine at last.
Preparation technology of the present invention is:
1, preparation NiSO
4The aqueous solution
With solid NiSO
46H
2The O nickelous sulfate is pressed NiSO
46H
2O: H
2O=132: 500 (quality) ratio is added to the water, and heats 40~70 ℃, and it is fully dissolved, and is prepared into NiSO
4The aqueous solution is standby;
2, preparation NaOH (caustic soda) aqueous solution
Press NaOH: H
2O=2: the ratio of 5 (quality) is added to the water NaOH (caustic soda), stirs, that the NaOH aqueous solution is made in dissolving is standby;
3, preparation NiSO
4Alkaline aqueous solution
The NaOH aqueous solution is poured in the nickel sulfate solution, carried out brute force simultaneously and stir, treat that pH value reaches at 10~13 o'clock, stops to pour into the NaOH aqueous solution.Be prepared into NiSO
4(nickelous sulfate) alkaline aqueous solution
4, configuration nickelous sulfate hydrazine alkaline mixed solution
Press N
2H
4H
2O (hydrazine): NiSO
46H
2O (nickelous sulfate)=100: 263 mass ratios is with N
2H
4H
2O solution is slowly poured in the nickelous sulfate alkaline aqueous solution and is mixed, carries out simultaneously the brute force stirring, is prepared into nickelous sulfate hydrazine alkaline mixed solution.
5, microwave activation-aqueous solution reduction
Nickelous sulfate hydrazine alkaline mixed solution is sent into activation-reduction in the microwave field, and a large amount of black nano nickel by powder particles appears in heating using microwave 1~3 minute in the solution, and reduction reaction was finished rapidly in 1.5~3 minutes.;
6, high speed centrifugation separates nano-nickel powder;
With Sharples centrifuge mother liquor is separated, will contain SO
4 2-Sulfate radical nano-nickel powder slip or powder agglomates take out and change cleaning over to.
7, stirring and washing sediment repeatedly
With clear water stirring and washing nickel powder slip or powder agglomates repeatedly, with sulfate radical SO
4 2-Ion washes, and uses BaCl
2The solution titration determination has or not SO
4 2-Radical ion does not have SO in sediment
4 2-Radical ion; , with nano nickle granules and a large amount of raffinate centrifugations cleaning fluid is discharged fast with Sharples centrifuge.
8, dehydration add activator, antioxidant,
To not contain SO
4 2-The nano-nickel powder slip or the powder agglomates of sulfate ion, by quality than nickel powder: ethanol=1: 4.5~5.5 add ethanol, utilize the dehydration of ethanol further the residual water in the nickel powder to be removed.Meanwhile adding particle dispersants is surfactant (SD) and antioxidant (BTA), and addition is 0.1% of an ethanol (quality), and stirs 20~40 minutes, through centrifugation, reclaim and remove ethanol.
9, vacuum vibration drying reclaims ethanol
With the nickel powder slip that removes behind the ethanol, (2~10Pa), 200~300 ℃, vibration drying 30~60 minutes further reclaims ethanol in a vacuum.The discharging of cooling back promptly obtains≤the superfine nano nickel powder of 100nm.
10, Performance Detection
To nanoscale Ni nickel powder Performance Detection, mainly carry out XRD, SEM, tem analysis and BET specific surface and measure
11, carry out vacuum packaging
The invention has the advantages that:
(1) provides the new technology of a kind of average grain diameter of the large-scale production of serialization apace nano level superfine from production technology less than the metallic nickel powder of 100nm.
(2) device therefor is simple, operation is short
(3) microwave activation reduction and continuous high-speed centrifugation technique have been saved the reduction and the sedimentation time of nano-nickel powder widely, enhance productivity about 200~300 times
(4) the nano level superfine metallic nickel powder of Sheng Chaning is spherical in shape.
Description of drawings
Accompanying drawing is preparation technology's flow chart of the present invention, and wherein 1 is by NiSO
46H
2O: H
2O=132: 500 (quality) ratio prepares NiSO
4The aqueous solution, the powerful stirring, and heat 40-70 ℃.The 2nd, by NaOH: H
2O=2: 5 mass ratios prepare the NaOH aqueous solution; The 3rd, prepare the nickelous sulfate alkaline solution, the NaOH aqueous solution is poured in the nickel sulfate solution mixed, control pH value to 10~13.The 4th, by hydrazine: nickelous sulfate=100: 263 mass ratios, configuration nickelous sulfate hydrazine alkaline mixed solution.The 5th, nickelous sulfate hydrazine alkaline mixed solution is put into microwave field activation heating, a large amount of black nickel powder precipitation things produce in solution; The 6th, with Sharples centrifuge black nickel powder sediment is separated with mother liquor; The 7th, stirring and washing, centrifugation repeatedly is with sulfate radical SO
4 2-Ion washes, and with nano nickle granules and a large amount of raffinate centrifugations, the 8th, it is surfactant (SD) that ethanol dehydration adds activator, antioxidant (BTA) and particle dispersants.And with the quick centrifugation of sediment powder, the 9th, the vacuum vibration drying, further reclaim ethanol, the oven dry after obtain metal nickel nanometer powder.The 10th, the nano-nickel powder Performance Detection is mainly carried out XRD, SEM, tem analysis and BET specific surface and is measured.The 11st, carry out vacuum packaging.
The specific embodiment
Embodiment 1: during preparation 1kg nanometer Ni powder, should follow these steps to finish.
1, takes by weighing 4.5kg NiSO
46H
2O (nickelous sulfate) powder is pressed NiSO
45H
2O: H
2O=132: 500 mass ratios are added to the water, and heat 70 ℃, and it is fully dissolved, and are prepared into NiSO
4The aqueous solution;
2, the preparation NaOH caustic soda aqueous solution
1000g NaOH caustic soda is pressed NaOH: H
2O=2: the ratio of 5 (quality) be added to the water stirring, fully dissolution filter impurity to make the NaOH aqueous solution standby;
3, preparation NiSO
4Alkaline aqueous solution
The NaOH aqueous solution is poured in the nickel sulfate solution, carried out brute force simultaneously and stir, treat that pH value reaches at 10 o'clock, stop to pour into the NaOH aqueous solution, be prepared into the nickelous sulfate alkaline aqueous solution.
4, configuration nickelous sulfate hydrazine alkaline mixed solution
Press N
2H
4H
2O (hydrazine): NiSO
46H
2O (nickelous sulfate)=100: 263 mass ratios takes by weighing hydrazine solution 1.7kg, with N
2H
4H
2O solution is slowly poured in the nickelous sulfate alkaline aqueous solution and is mixed, and powerful the stirring is configured to nickelous sulfate hydrazine alkaline mixed solution
5, microwave activation-aqueous solution reduction
Nickelous sulfate hydrazine alkaline mixed solution is sent into activation-aqueous solution reduction in the microwave field, heating using microwave 3 minutes, the black nano nickel by powder precipitates rapidly in solution.
6, high speed centrifugation separates nano-nickel powder
With Sharples centrifuge nano nickle granules is separated with a large amount of raffinate centrifugation, and cleaning fluid is discharged fast.To contain SO
4 2-Sulfate radical nano-nickel powder slip or powder agglomates take out and change cleaning over to.
7, stirring and washing sediment repeatedly
With clear water stirring and washing nickel powder slip or powder agglomates repeatedly, with sulfate radical SO
4 2-Ion washes, and uses BaCl
2The solution titration determination has or not SO
4 2-Radical ion does not have SO in sediment
4 2-Radical ion, is discharged cleaning fluid nano nickle granules and a large amount of raffinate centrifugations fast with Sharples centrifuge.
8, ethanol dehydration adds activator, antioxidant
To not contain SO
4 2-The nano-nickel powder slip or the powder agglomates of sulfate ion, by quality than nickel powder: ethanol=add ethanol 5kg at 1: 5, utilize the dehydration of ethanol further the residual water in the nickel powder to be removed.Meanwhile adding particle dispersants SD and antioxidant BTA (respectively adding by 0.1 ‰ of ethanol quality) is 0.5g, and stirs 40 minutes, through centrifugation, reclaim and remove ethanol.
9, vacuum vibration drying reclaims ethanol
With the nickel powder slip that removes behind the ethanol, (10Pa) in a vacuum, 300 ℃, vibration drying 60 minutes further reclaims ethanol, and cooling back discharging promptly obtains the nano-level sphere nickel powder of 1kg average grain diameter≤100nm.
10, Performance Detection
To nanoscale Ni nickel powder Performance Detection, mainly carry out XRD, SEM, tem analysis and BET specific surface and measure
11, carry out vacuum packaging
Embodiment 2: during preparation 500g nanometer Ni powder, should follow these steps to finish.
1, takes by weighing 2.25kg NiSO
45H
2O nickelous sulfate powder is with NiSO
45H
2The O nickelous sulfate is pressed NiSO
45H
2O: H
2O=132: the dissolving that is added to the water of 500 mass ratios, heating-up temperature is 40 ℃, the powerful stirring is prepared into NiSO
4The aqueous solution;
2, the preparation NaOH caustic soda aqueous solution
500g NaOH caustic soda is pressed NaOH: H
2O=2: the ratio of 5 (quality) be added to the water stirring, dissolving, that impurity screening is made the NaOH aqueous solution is standby;
3, preparation NiSO
4Alkaline aqueous solution
The NaOH aqueous solution is poured in the nickel sulfate solution, carried out brute force simultaneously and stir, treat that pH value reaches at 13 o'clock, stop to pour into the NaOH aqueous solution, be prepared into the nickelous sulfate alkaline aqueous solution.
4, configuration nickelous sulfate hydrazine alkaline mixed solution
Press hydrazine: the mass ratio of nickelous sulfate=100: 263 takes by weighing hydrazine 0.85kg, with N
2H
4H
2The O hydrazine solution is slowly poured NiSO into
4Mix in the alkaline aqueous solution, stir; Be prepared into the nickelous sulfate hydrazine solution.
5, with embodiment 1 in 5, basic identical, just the microwave time is 1.5 minutes.
6, with embodiment 1 in 6, identical.
7, with embodiment 1 in 7, identical.
8, ethanol dehydration adds activator, antioxidant
To not contain SO
4 2-The nano-nickel powder slip or the powder agglomates of sulfate ion, by quality than nickel powder: ethanol=add ethanol 2.5kg at 1: 5, utilize the dehydration of ethanol further the residual water in the nickel powder to be removed.Meanwhile adding particle dispersants SD and antioxidant BTA (respectively adding by 0.1 ‰ of ethanol quality) is 0.25g, and stirs 20 minutes, through centrifugation, reclaim and remove ethanol.
9, vacuum vibration drying reclaims ethanol
With the nickel powder slip that removes behind the ethanol, 2Pa in a vacuum, 200 ℃, vibration drying 30 minutes further reclaims ethanol.Cool off the back discharging, promptly obtain the nano-level sphere nickel powder of 500g average grain diameter≤100nm.
10,11, with embodiment 1 in 10,11, identical.
Claims (1)
1, a kind of microwave activation-aqueous solution reducing process prepares the method for nano-nickel powder, it is characterized in that: the NiSO that will contain nickel ion earlier
4Water-soluble, use N
2H
4H
2The O hydrazine can provide electronics in the aqueous solution characteristics under the effect of microwave field vigor with Ni
2+Ion is reduced into the nano nickle granules powder; Be reflected at pH value and finish for 10~13 times, residual SO in the product
4 2-Ion is washed out, and removes residual water with ethanol, adopts the method for the quick centrifugation of continous way that waste liquid is separated with sediment, at last at vacuum 2~10Pa, dries in 200~300 ℃ of vibration drying machines, obtains nano-nickel powder, and its concrete technology is:
A. prepare four kinds of aqueous solution
With solid NiSO
45H
2The O nickelous sulfate is pressed NiSO
45H
2O: H
2O=132: 500 mass ratios are added to the water, and heat 40~70 ℃, the powerful stirring, and fully dissolving is prepared into NiSO
4The aqueous solution;
Press NaOH: H
2O=2: the ratio of 5 quality is that caustic soda is added to the water with NaOH, and it is standby to stir, make the NaOH aqueous solution;
The NaOH aqueous solution is poured in the nickel sulfate solution, carried out brute force simultaneously and stir, treat that pH value reaches at 10~13 o'clock, stop to pour into the NaOH aqueous solution, be prepared into the nickelous sulfate alkaline solution;
Press N
2H
4H
2O (hydrazine): NiSO
45H
2O (nickelous sulfate)=100: 263 mass ratios is with N
2H
4H
2O solution is slowly poured in the nickelous sulfate alkaline solution, is configured to nickelous sulfate hydrazine alkaline mixed solution;
B. microwave activation-aqueous solution reduction
Nickelous sulfate hydrazine alkaline mixed solution is sent into activation-aqueous solution reduction in the microwave field, heating using microwave 1~3 minute, reduction reaction was finished rapidly in 1.5~3 minutes;
C. mother liquor and nickel powder sediment are to be isolated and excluded waste liquid fast with Sharples centrifuge 8000~20000rpm;
D. sulfate radical SO in the washing and precipitating thing repeatedly blunges
4 2-Ion, and continuous centrifugal eliminating waste liquid are used BaCl
2Solution titration waste liquid does not have SO in waste liquid
4 2-Behind the root, stop washing;
E. slip or powder agglomates and the ethanol liquid that d is handled, by quality than nickel powder: ethanol=1: 4.5~5.5 add industrial alcohols, utilize the dehydration effect of ethanol that the residual water in the nano-nickel powder is removed, adding micro-particle dispersants simultaneously is the micro-antioxidant BTA that surfactant SD and adding prevent the nano-nickel powder surface oxidation, addition is respectively pressed 0.1 ‰ of ethanol quality and is added, above-mentioned slip stirred after 20~40 minutes, separates, ethanol is separated and reclaim with Sharples centrifuge;
F, was dried 30~60 minutes under 200~300 ℃ of conditions when vacuum is 2~10Pa with vacuum vibration drying machine, and reclaimed ethanol, cooled off the back discharging, promptly obtained the superfine nano nickel powder of grain shape almost spherical, average grain diameter≤100nm;
G nanoscale Ni nickel powder should carry out XRD, SEM, tem analysis and BET project to be measured, and carries out vacuum packaging.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100450676C (en) * | 2006-03-09 | 2009-01-14 | 兰州大学 | Method for preparing nano nickel powder in emulsion system |
CN100509220C (en) * | 2006-03-17 | 2009-07-08 | 金川集团有限公司 | Method for preparing round nickel powder in submicro |
CN100556587C (en) * | 2007-10-17 | 2009-11-04 | 江苏大学 | Microwave auxiliary liquid phase reduction method preparing needle-shaped nanometer nickel |
-
2003
- 2003-12-19 CN CN 200310121139 patent/CN1225336C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100450676C (en) * | 2006-03-09 | 2009-01-14 | 兰州大学 | Method for preparing nano nickel powder in emulsion system |
CN100509220C (en) * | 2006-03-17 | 2009-07-08 | 金川集团有限公司 | Method for preparing round nickel powder in submicro |
CN100556587C (en) * | 2007-10-17 | 2009-11-04 | 江苏大学 | Microwave auxiliary liquid phase reduction method preparing needle-shaped nanometer nickel |
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CN1225336C (en) | 2005-11-02 |
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