CN1182139A - Rare earth alloy purifying functional-material - Google Patents
Rare earth alloy purifying functional-material Download PDFInfo
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- CN1182139A CN1182139A CN 96116578 CN96116578A CN1182139A CN 1182139 A CN1182139 A CN 1182139A CN 96116578 CN96116578 CN 96116578 CN 96116578 A CN96116578 A CN 96116578A CN 1182139 A CN1182139 A CN 1182139A
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- rare earth
- water
- norium
- earth alloy
- purifying functional
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Abstract
The said functional material is an ideal and efficient one to eliminate various harmful material in water and it is powder or fibrous. It is used in producing various purifier for water treatment of different need. The present invention uses available raw material and produces the new type practical functional material through simple smelting and atomizing process.
Description
The present invention relates to a kind of alloy functional materials, be specifically related to a kind of rare earth alloy purifying functional-material.
At present, water purification handle materials such as most applied activated carbon, reverse osmosis membrane make a return journey dewater in harmful material, obtain certain effect, but desirable not enough.Along with the high speed development of industry, being on the rise of environmental pollution, the particularly severe contamination of water quality, tap water to the health threat of human body by the common concern of people institute.
U.S. Patent number 4,642,192,5,122,274,5,135,654 and 5,198,118 have disclosed a kind of platina (being called the KDF treatment media), are used for water treatment device, to remove anhydrate middle chlorine and other organism, heavy metal ion, and have elimination and suppress bacterial growth, functions such as balance water quality potential of hydrogen.The mechanism of action of platina in water treatment is the reaction of applying electrode chemistry redox, in electrode chemistry redox processes, zinc is anode, copper is negative electrode, particle and interparticle space are electrolyzer, and the unwanted impurity in the aqueous fluid is just taken on electrolytical role, when aqueous fluid with after platina contacts, promptly can produce micro-current, change the objectionable impurities in the water into harmless composition by electrolytic action.
Purpose of the present invention aims to provide a kind of rare earth alloy purifying functional-material.It can remove toxic substance in the water, heavy metal ion, fluorion, free chlorine, biological pollution material etc., and can prevent the secondary pollution in the water purification equipment.
Above-mentioned purpose of the present invention realizes in the following manner: a kind of rare earth alloy purifying functional-material, contain Zn 30-57%, Cu 28-65%, with be selected from a kind of La, the norium 5-15% of the norium of Ce or La or Ce, the norium of described La contains La 48-50%, Ce28-30%, Pr 1-3%, Nd 10-12%, Sm 3-4%, Eu 2-4%, the norium of Gd 1-3% and Y 1% and described Ce contains Ce 49-51%, La 26-28%, Pr 6-8%, Nd 11-12%, Eu 1-2%, Sm 1-2%, Gd 0.5-1% and Y 0.5-1%.
Purifying functional-material of the present invention can through water atomization or aerosolization method, obtain spherical powder material or irregular plate material by behind Zn, the Cu and rare earth element melting of intermediate frequency furnace with above-mentioned prescription, and its loose density is 1.0-2.0g/cm
3, granularity was 80 orders, yellow-green colour is nonpoisonous and tasteless.Also can be made into villus fiber shape material, to adapt to the requirement of different refining plants.
Advantage of the present invention is tangible, the novel alloy functional materials is except the purification function with above-mentioned platina, also because the chemical property of thulium is very active, form higher redox potential with the pairing of zinc, copper, the objectionable impurities that can more effective removal platina is difficult to remove such as fluorion etc.Simultaneously, the atomic structure of rare earth element has common feature, be that skin has 2 electronics, inferior skin has 8 electronics, their chemical property is all alike, and valency is generally positive 3 valencys, therefore, the alloy functional materials of the present invention that adopts above-mentioned selection component to constitute purifies the role and influence that character has equivalence to it.In addition, alloy of the present invention can adopt outside the copper, zinc of general industry purity, also can adopt the mixture of La and Ce, has reduced cost like this, and has not influenced its purification function.
The present invention is described in further detail below with reference to specific embodiment and application examples, among the embodiment unless stated otherwise outside, all adopt weight percentage.
The present invention adopts the method preparation of melting atomizing, can pass through intermediate frequency furnace, with zinc, copper and rare earth element by the prescription melting after, obtain the spherical powder material or obtain irregular plate material by the water atomization method or through the aerosolization method again, its loose density is 1.0-2.0g/cm
3, granularity was 80 orders, yellow-green colour is nonpoisonous and tasteless.Also can make fiber or fine hair shape material, to adapt to the requirement of different refining plants by melting liquid spray silk.Embodiment 1-3:
With Zn 57%, Cu 28% and La 15% (embodiment 1), or Zn 30%, Cu 65% and La 5% (embodiment 2), or Zn 50%, Cu 40% and La 10% (embodiment 3) are in intermediate frequency furnace after the melting, by water atomization or aerosolization method, make low bulk 1.0-2.0g/cm
3Mistake 80 order beads or irregular plate material, outward appearance has yellow-green colour metalluster, and is nonpoisonous and tasteless, has excellent purification function.(referring to table 1) embodiment 4-6:
With Zn 57%, Cu 28% and Ce 15% (embodiment 4), or Zn 30%, Cu 65% and Ce 5% (embodiment 5), or Zn 50%, Cu 40% and La 10% (embodiment 6), in intermediate frequency furnace, after the melting, make low bulk 1.0-2.0g/cm by water atomization or aerosolization method
3Mistake 80 order beads or irregular plate material, outward appearance has metalluster, and is nonpoisonous and tasteless, has excellent purification function.(referring to table 2) embodiment 7-9:
La norium (embodiment 7) with Zn 57%, Cu 28% and 15%, or the La norium of Zn 30%, Cu65% and 5% (embodiment 8), or the La norium of Zn 50%, Cu 40% and 10% (embodiment 9), adopt the method among the embodiment 1-6, make low bulk 1.0-2.0g/cm
3Mistake 80 order beads or irregular plate material, outward appearance has yellow-green colour metalluster, and is nonpoisonous and tasteless, has excellent purification function.La norium in the foregoing description contains La 48%-50%, Ce 28-30%, Pr 1-3%, Nd 10-12%, Sm 3-4%, Eu 2-4%, Gd 1-2% and Y1%.(referring to table 3) embodiment 10-12:
Ce norium (embodiment 10) with Zn 57%, Cu 28% and 15%, or the Ce norium of Zn 30%, Cu 65% and 5% (embodiment 11), or the Ce norium of Zn 50%, Cu 40% and 10% (embodiment 12), adopt the method among the embodiment 1-6, make low bulk 1.0-2.0g/cm
3Mistake 80 order beads or irregular plate material, outward appearance has metalluster, and is nonpoisonous and tasteless, has excellent purification function.Ce norium in (referring to table 4) the foregoing description contains Ce 49-51%, La 26-28%, Pr 6-8%, Nd 11-12%, Eu 1-2%, Sm 1-2%, Gd 0.5-1% and Y 0.5-1%.Application Example: the application that the purification function material in the foregoing description is used to purify waste water:
(1) former water preparation: (selecting representative ion to test)
Make solution with tap water, be added with harmful substances and test.
Contain in the former water:
Free chlorine 1.8mg/l, fluorion 3.5mg/l, cupric ion 0.48mg/l,
Lead ion 0.2mg/l, total chromium ion 1.0mg/l, cadmium ion 0.76mg/l,
Zine ion 0.64mg/l, iron ion 1.5mg/l,
CHCl
3???0.075mg/l,????CCl
4???0.016mg/l,
Total plate count 1.6 * 10
3Individual/ml, coliform 7.0 * 10
2Individual/l
(2) device:
As shown in Figure 1, the former water of preparation is packed in the tank 1, there are three water outlets the tank lower end, joins with three cleaners 2,3 and 4 respectively.The purifying functional-material of implementing each 500 gram of 1-3,4-6,7-9 and 10-12 preparation is inserted respectively in the cleaner 2,3 and 4 of Φ 65 * 250mm, and its water-in is communicated with the water outlet of tank, and valve 8,9 and 10 control and water outlet receiver 5,6 and 7 are arranged.
(3) test:
Former water is with the cleaner 2,3 and 4 of the speed of the per minute 200ml purifying functional-material by embodiment 1-3,4-6,7-9 and 10-12 are housed respectively, and the water outlet of each group after test is collected respectively the results are shown in Table 1-4.
Table 1, be equipped with the test result of the purifying functional-material of embodiment 1-3 preparation respectively:
Sequence number | Former water | Water outlet | The % clearance |
??1 | Free chlorine 1.8mg/l | ?0 | ?100% |
??2 | F -3.0mg/l | ?0.33-0.27mg/l | ?89-91% |
??3 | Cu?0.48mg/l | ?0.067-0.048mg/l | ?86-90% |
??4 | Pb?0.2mg/l | ?0.016-0.01mg/l | ?92-95% |
??5 | Cr?1.0mg/l | ?0.08-0.055mg/l | ?92-94.5% |
??6 | Cd?0.76mg/l | ?0.084-0.057mg/l | ?89-92.5% |
??7 | Zn?0.64mg/l | ?0.141-0.112mg/l | ?78-82.5% |
??8 | Fc?1.5mg/l | ?0.232-0.202mg/l | ?84.5-86.5% |
??9 | CHCl 3?0.075mg/l | ?0.019-0.016mg/l | ?74-78% |
??10 | CCl 4?0.016mg/l | ?0.0028-0.0023mg/l | ?82.5-85.5% |
??11 | Total plate count 1.6 * 10 3Individual/ml | ?6.6×10 1 | ?96% |
??12 | Coliform 7.0 * 10 2Individual/l | ?<3 | ?99.6% |
Table 2, be equipped with the test result of the purifying functional-material of embodiment 4-6 preparation respectively:
Sequence number | Former water | Water outlet | The % clearance |
??1 | Free chlorine 1.8mg/l | ?0 | ?100% |
??2 | F -3.0mg/l | ?0.36-0.225mg/l | ?88-92.5% |
??3 | Cu?0.48mg/l | ?0.062-0.048mg/l | ?87-90% |
??4 | Pb?0.2mg/l | ?0.016-0.012mg/l | ?92-94% |
??5 | Cr?1.0mg/l | ?0.007-0.05mg/l | ?93-95% |
??6 | Cd?0.76mg/l | ?0.087-0.053mg/l | ?88.5-93% |
??7 | Zn?0.64mg/l | ?0.134-0.109mg/l | ?79-83% |
??8 | Fc?1.5mg/l | ?0.24-0.21mg/l | ?84-86% |
??9 | CHCl 3?0.075mg/l | ?0.019-0.017mg/l | ?75-77% |
?10 | CCl 4?0.016mg/l | ?0.0027-0.0023mg/l | ?83-85.5% |
?11 | Total plate count 1.6 * 10 3Individual/ml | ?6.6×10 1 | ?96% |
?12 | Coliform 7.0 * 10 2Individual/l | ?<3 | ?99.6% |
Table 3 is equipped with the test result of the purifying functional-material of embodiment 7-9 preparation respectively
Sequence number | Former water | Water outlet | The % clearance |
??1 | Free chlorine 1.8mg/l | ?0 | ?100% |
??2 | F -3.0mg/l | ?0.345-0.255mg/l | ?88.5-91.5% |
??3 | Cu?0.48mg/l | ?0.061-0.046mg/l | ?87.3-90.5% |
??4 | Pb?0.2mg/l | ?0.018-0.012mg/l | ?91.2-94% |
??5 | Cr?1.0mg/l | ?0.075-0.05mg/l | ?92.5-95% |
??6 | Cd?0.76mg/l | ?0.091-0.061mg/l | ?88-92% |
??7 | Zn?0.64mg/l | ?0.14-0.122mg/l | ?78.4-81% |
??8 | Fc?1.5mg/l | ?0.255-0.216mg/l | ?83-85.6% |
??9 | CHCl 3?0.075mg/l | ?0.018-0.017mg/l | ?75.4-77.8% |
??10 | CCl 4?0.016mg/l | ?0.0027-0.0024mg/l | ?83-85% |
??11 | Total plate count 1.6 * 10 3Individual/ml | ?6.6×10 1 | ?96% |
??12 | Coliform 7.0 * 10 2Individual/l | ?<3 | ?99.6% |
Table 4, be equipped with the test result of the purifying functional-material of embodiment 10-12 preparation respectively:
Sequence number | Former water | Water outlet | The % clearance |
??1 | Free chlorine 1.8mg/l | ?0 | ?100% |
??2 | ?F -3.0mg/l | ?0.33-0.21mg/l | ?89-93% |
??3 | ?Cu?0.48mg/l | ?0.055-0.043mg/l | ?88.5-91% |
??4 | ?Pb?0.2mg/l | ?0.014-0.01mg/l | ?93-95% |
??5 | ?Cr?1.0mg/l | ?0.06-0.04mg/l | ?94-96% |
??6 | ?Cd?0.76mg/l | ?0.084-0.053mg/l | ?89-93% |
??7 | ?Zn?0.64mg/l | ?0.138-0.117mg/l | ?78.5-82% |
??8 | ?Fc?1.5mg/l | ?0.231-0.204mg/l | ?84.6-86.4% |
??9 | ?CHCl 3?0.075mg/l | ?0.019-0.016mg/l | ?75-78% |
?10 | ?CCl 4?0.016mg/l | ?0.0027-0.0022mg/l | ?83-86% |
?11 | Total plate count 1.6 * 10 3Individual/ml | ?6.6×10 1 | ?96% |
?12 | Coliform 7.0 * 10 2Individual/l | <3 | ?99.6% |
Above embodiment only for illustrative purposes, protection scope of the present invention will embody in claims.
Claims (6)
1. a rare earth alloy purifying functional-material is characterized in that comprising Zn 30-57%, and Cu 28-65. and 5-15% are selected from La, Ce or are the norium of main component with La, or is the norium of main component with Ce.
2. rare earth alloy purifying functional-material as claimed in claim 1 is characterized in that described La norium contains La 48-50%, Ce 28-30%, Pr 1-3%, Nd 10-12%, Sm 3-4%, Eu 2-4%, Gd 1-2% and Y 1%.
3. rare earth alloy purifying functional-material as claimed in claim 1 is characterized in that described Ce norium contains Ce 49-51%, La 26-28%, Pr 6-8%, Nd 11-12%, Eu 1-2%, Sm 1-2%, Gd 0.5-1% and Y 0.5-1%.
4. rare earth alloy purifying functional-material as claimed in claim 1 is characterized in that described Zn30%, Cu 65% and La 5%; Perhaps Zn 57%, Cu 28% and La 15%; Perhaps Zn 40%, Cu50% and La 10%.
5. rare earth alloy purifying functional-material as claimed in claim 1 is characterized in that described Zn30%, Cu 65% and Ce 5%; Perhaps Zn 57%, Cu 28% and Ce 15%; Perhaps Zn 40%, Cu50% and La 10%.
6. one kind contains Zn 30-57%, and Cu 28-65% and 5-15% are selected from La, Ce or are the norium of main component with La or are the rare-earth alloy material of the norium of main component with Ce, it is characterized in that being used to purify water.
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CN96116578A CN1102665C (en) | 1996-11-13 | 1996-11-13 | Rare earth alloy purifying functional-material |
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CN96116578A CN1102665C (en) | 1996-11-13 | 1996-11-13 | Rare earth alloy purifying functional-material |
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CN1182139A true CN1182139A (en) | 1998-05-20 |
CN1102665C CN1102665C (en) | 2003-03-05 |
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ID=5123674
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CN96116578A Expired - Fee Related CN1102665C (en) | 1996-11-13 | 1996-11-13 | Rare earth alloy purifying functional-material |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101200322B (en) * | 2007-12-21 | 2010-06-02 | 中国科学院沈阳应用生态研究所 | Treating material for dye waste water and treatment method |
CN106517570A (en) * | 2015-09-09 | 2017-03-22 | 株式会社神户制钢所 | Purification method and purification agent |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5135654A (en) * | 1984-04-30 | 1992-08-04 | Kdf Fluid Treatment, Inc. | Method for treating fluids |
RU1816227C (en) * | 1991-05-27 | 1993-05-15 | Георгий Александрович Малиновский | Filter packing material for drinking water treatment |
-
1996
- 1996-11-13 CN CN96116578A patent/CN1102665C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101200322B (en) * | 2007-12-21 | 2010-06-02 | 中国科学院沈阳应用生态研究所 | Treating material for dye waste water and treatment method |
CN106517570A (en) * | 2015-09-09 | 2017-03-22 | 株式会社神户制钢所 | Purification method and purification agent |
CN106517570B (en) * | 2015-09-09 | 2020-08-04 | 株式会社神户制钢所 | Purification treatment method and purification treatment agent |
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CN1102665C (en) | 2003-03-05 |
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