CN102329987A - Antibacterial and anticorrosive radiator aluminum alloy fin - Google Patents
Antibacterial and anticorrosive radiator aluminum alloy fin Download PDFInfo
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- CN102329987A CN102329987A CN201110171135A CN201110171135A CN102329987A CN 102329987 A CN102329987 A CN 102329987A CN 201110171135 A CN201110171135 A CN 201110171135A CN 201110171135 A CN201110171135 A CN 201110171135A CN 102329987 A CN102329987 A CN 102329987A
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Abstract
The invention relates to an antibacterial and anticorrosive radiator aluminum alloy fin. The radiator aluminum alloy fin is characterized by being prepared from the following materials: 0.3 to 0.85 weight percent of B, 0.5 to 1.8 weight percent of Mn, 0.5 to 1.6 weight percent of Ti, 0.20 to 0.60 weight percent of Cu, 0.01 to 0.02 weight percent of Ag, and the balance of Al and inevitable impurities. By testing the corrosion behavior of the alloy material through seawater acetic acid test (SWAAT), the corrosion resistance of the aluminum alloy is remarkably improved; and the radiator aluminum alloy fin has good antibacterial property, and the antibacterial rate of the radiator aluminum alloy fin on escherichia coli and staphylococcus aureus reaches over 99 percent.
Description
Technical field
The present invention relates to a kind of heat sink assembly, the present invention relates to a kind of scatterer aluminum alloy fin specifically, it has antibiotic anti-corrosion effect.
Background technology
In interchanger such as vaporizer, condensing surface, use the good duraluminum of light weight and thermal conductivity always.Usually, the manufacturing of these interchanger is to carry out according to following method: for example through with sheet bending, or in addition range upon range of by the sheet material of press working moulding, thereby form the cooling flat tube as working fluid.
With regard to erosion resistance, because from outside surface and inner corrosion, when producing break-through prematurely in the refrigerant path pipe; Leakage of refrigerant can't play the function as interchanger, therefore; Implement anti-corrosive treatment at the outside surface of refrigerant path pipe always, prolong the life-span of interchanger thus.In the past, to adopt Al-Zn be alloy was coated on the outside surface of sheet material as sacrificial anode material, and with this plate forming for equalling the method that tubulose uses partially; Or the method for extruding perforated tube as the refrigerant path pipe use.Yet the structure of most interchanger is the structures that engage fin at the outside surface of refrigerant path pipe, because there is not solder in the outside surface of refrigerant path pipe in the method, therefore, must use the fin material that has coated solder.At this moment, owing to receive the influence of the solder that residues in fin surface, self corrosion resistance nature of fin material reduces, and the manufacturing cost that coats the fin material in addition is higher than naked fin, therefore causes the rising of interchanger manufacturing cost.
In the fin that the outside surface of refrigerant path pipe engages, use under the situation of naked material, can improve self erosion resistance of fin, and through using the high conduction material; Can also improve the performance of interchanger; Compare with coating the fin material, also can reduce cost, but need give solder this moment at the outside surface of refrigerant path pipe; Therefore; Will be the pulverous solder of surface-coated of alloy at above-mentioned Al-Zn, perhaps, will use outside surface to be coated with at Al-B be the sheet material that has added the material of Zn in the solder alloy.Under the former situation,, therefore cause the increase of interchanger manufacturing cost because the cost of powder brazing alloy is high; In the latter case, owing to flowing of the molten solder that contains Zn in the soldering, therefore; Do not reach as the needed Zn amount of sacrificial anode material in the residual Zn amount of refrigerant passage tube outer surface after causing soldering, cause to obtain enough anticorrosion abilities of refrigerant path pipe, perhaps; Flow to the junction surface owing to contain the molten solder of Zn, cause the preferential corrosion at junction surface.
In the prior art, application number is 02828286.8 patent report relates to a kind of brazed heat exchanger superpower, durable, that erosion resistance improves and uses aluminium fin.This alloy is based on the regenerated material.This alloy demonstrates the corrosive nature of raising, excellent anti-performance and the back soldering strength of hanging down of high temperature for pitting corrosion.Through optimizing the combination of materials of radiator element, pipe, end plate and side plate, can be manufactured on the interchanger that has enough corrosive natures among the SWAAT.
Application number is 02806584.0 patent report, and a kind of corrosion resistant aluminum alloy has iron, manganese, chromium and the titanium of manipulated variable, and the zinc that contains copper, silicon, nickel and be no more than impurity level.Adjust the chemical constitution of said alloy,, thereby reduce intergranular corrosion so that the electropotential of grain boundary and alloy substrate be complementary.Said alloy is particularly suitable for adopting extruding and soldering tech to make the tubing in the heat exchanger.
Summary of the invention
Above-mentioned purpose in view of the stainless heat exchanger that uses in the prior art exists the purpose of this invention is to provide a kind of scatterer aluminum alloy fin, has sufficiently high corrosion resisting property, and has the antimicrobial effect.
To achieve these goals, the present invention has adopted following technical scheme:
A kind of antibiotic anti-corrosion scatterer aluminum alloy fin is characterized in that it and is processed by the following material of forming; B:0.3-0.85 wt%, Mn:0.5-1.8 wt%, Ti:0.5-1.6 wt%, Cu:0.20-0.60 wt%, Ag:0.01-0.02 wt%, surplus is that Al and unavoidable impurities constitute.
The meaning and the qualification reason of the alloying constituent of aluminum alloy materials of the present invention are described below.
B:
Through in duraluminum, adding can the be improved effect of intensity of B.Preferred content is B:0.3-0.85 wt%; When if the content of B is lower than 0.3wt%, the effect that improves intensity is not remarkable, and the adding of B is beneficial to the wettability of improving alloy again; Help improving the processing characteristics of duraluminum, particularly significantly improved the cold-forming property of alloy.The content of B surpasses the upper limit, and then the solidity to corrosion to duraluminum produces adverse influence.Preferably, the content range of B is: 0.45-0.75 wt%.
:
Through in duraluminum, adding Mn, can the refinement aluminum alloy granule, improve the intensity of alloy and don't reduce the solidity to corrosion of alloy.When the content of Mn was lower than 0.5 wt%, its raising to intensity of aluminum alloy was not remarkable; And when the content of Mn was higher than 1.8wt%, its solubleness in alloy reached capacity, and continued to increase the content of Mn, will cause in hot worked process, reducing the processing characteristics of extruding of alloy.Thereby, in the present invention its content is limited in the scope of 0.5wt%-1.5wt%.Preferably, the content range of Mn is: 0.8-1.5 wt%.Preferred its content range is 0.9-1.2 wt%.
Ti:
Through in duraluminum, adding Ti, can increase the flowability of manufacturing and weld period, can improve the workability of material, and in the framework of the present definition, when improving the material workability, the corrosion resisting property of material not had the influence of significant adverse.But when the content of Ti is higher than 1.6 wt%, will form a large amount of intermetallic compounds, cause selective corrosion easily.Preferably, the content of Ti is 0.8-1.3 wt%.
Cu:
Through in duraluminum, adding Cu, the effect of the intensity that can be improved, and in alloy of the present invention, add the Cu of an amount of content, and can also improve the spontaneous potential of alloy, have sterilization antimicrobial effect.The preferred content of Cu is 0.20-0.60wt%, if but the content of Cu surpasses 0.60 wt%, the compound that contains Cu will optionally be deposited on crystal boundary around, cause the solidity to corrosion of alloy to reduce and will reduce the extrusion performance of alloy.The content range of preferred Cu is 0.20-0.45 wt%.
Ag
Ag is a kind of good sterilization antimicrobial element that has, and in alloy of the present invention, adds a spot of Ag and promptly can play good antibiotic and sterilizing effect.Ag itself belongs to the ranks of precious metal, costs an arm and a leg, and based on the consideration on the price in the present invention, the content of Ag is no more than 0.02 wt%.In addition, when the content of Ag reached 0.02 wt%, its fungistatic effect basically reached capacity in Al alloy of the present invention.Thereby in the present invention its content is defined as 0.01-0.02 wt%.
In addition; The invention also discloses the preparation method of the aluminum alloy materials of above-mentioned radiator fin; It is characterized in that, will under nitrogen protection atmosphere, be heated to 620-720 ℃ of insulation 40-90 min by the alloy raw material of B, Mn, Ti, Cu, Ag and the Al of above-mentioned weight percent proportioning; Add the BaCl that accounts for alloy raw material gross weight 0.2-0.6 wt%
2, stir 30-50 min; Afterwards with alloy liquid casting; Pouring temperature is 550-650 ℃; Then in 400-480 ℃ of insulation 2-8 h processings that homogenize, and cool off the aluminum alloy materials that obtains radiator fin.Described aluminum alloy materials is through cold working and/or hot-work and/or casting, and prior aries such as for example forging, hot pressing, clod wash processing are processed into the scatterer aluminum alloy fin.
Scatterer aluminum alloy fin of the present invention behind homogenizing annealing, is observed its metallographic structure, and crystal grain is tiny and evenly beneficial to the solidity to corrosion that improves duraluminum; And do not find to exist in a large number the heterogeneous phase of galvanic corrosion in its tissue, alleviated the tendency that intergranular corrosion takes place greatly; Adopt the SWAAT experiment that the corrosion behavior of alloy material is tested, show that duraluminum solidity to corrosion of the present invention is significantly increased; And scatterer aluminum alloy fin of the present invention has good antibacterial property, and scatterer aluminum alloy fin of the present invention reaches more than 99 % the antibiotic rate of intestinal bacteria, streptococcus aureus.
Embodiment
Following the present invention will combine concrete embodiment that the present invention is done further explanation and explanation.
Press the shown mass percent of table 1, press the shown mass percent of table 1, prepare Al alloy material of the present invention.Concrete preparation process is: will under nitrogen protection atmosphere, be heated to 680 ℃ of insulation 75 min by the alloy raw material of B, Mn, Ti, Cu, Ag and the Al of above-mentioned weight percent proportioning; Add the BaCl that accounts for alloy raw material gross weight 0.5 wt%
2, stir 45 min; Afterwards with alloy liquid casting; Pouring temperature is 630 ℃; Then in 480 ℃ of insulation 2 h processings that homogenize, and cool off the aluminum alloy materials that obtains radiator fin.Be processed into the scatterer aluminum alloy fin again.
Strength of materials test
In order to measure tensile strength, carry out the standard tensile test at normal temperatures, the tensile strength of test material.The above person of tensile strength 150MPa is evaluated as well (zero), will be lower than 150MPa person and be evaluated as bad (*).
Corrosion-resistant and the antibacterial test of material
Size with 50 * 50 mm cuts out sample respectively, carries out salt-fog test.The corrosion test time set is 800 hours, material surface do not have the degree of depth surpass 0.1 mm corrosion pit, be evaluated as good (zero), will have the sample of the corrosion pit that surpasses 0.1 mm to be evaluated as corrodibility poor (*).Test result is presented in the table 2.
The test strain of antibacterial test is intestinal bacteria and streptococcus aureus.Detection method is:
(1) sample is cut into the big or small size of 50.0 * 50.0 mm, sterilization (in triplicate).
(2) on sample, drip some milliliters of bacterium liquid, make colony count maintain 10
5
(3) plastics film is covered specimen surface, put into aseptic plate then, in 36 ± 1 ℃ of constant incubators, cultivate after 24 hours, viable bacteria is counted.
(4) with the ferritic stainless steel of the not argentiferous same model of comparative example 1 as control sample, repeat aforesaid operations.
Antibiotic rate adopts by antibiotic rate=[(A-B)/A] * 100% and calculates, in the formula: the average viable count of control sample after A-24 hour; Antibiotic sample average viable count after B-24 hour.
The chemical ingredients of table 1 mother metal (surplus is Al and unavoidable impurities)
| Numbering | B | Mn | Ti | Cu | Ag |
| 1 | 0.3 | 0.5 | 0.5 | 0.2 | 0.01 |
| 2 | 0.35 | 0.7 | 0.7 | 0.25 | 0.01 |
| 3 | 0.5 | 0.9 | 0.9 | 0.3 | 0.01 |
| 4 | 0.55 | 1.1 | 1.0 | 0.35 | 0.015 |
| 5 | 0.65 | 1.3 | 1.2 | 0.4 | 0.015 |
| 6 | 0.70 | 1.5 | 1.35 | 0.47 | 0.15 |
| 7 | 0.75 | 1.7 | 1.50 | 0.55 | 0.02 |
| 8 | 0.85 | 1.8 | 1.60 | 0.6 | 0.02 |
Table 2: sample tensile strength, solidity to corrosion and antibacterial effect
| Numbering | Tensile strength | SWAAT test 1000 hours | Antimicrobial efficiency |
| 1 | Very | Very | >99% |
| 2 | Very | Very | >99% |
| 3 | Excellent | Excellent | >99% |
| 4 | Excellent | Excellent | >99 % |
| 5 | Excellent | Excellent | >99% |
| 6 | Excellent | Excellent | >99% |
| 7 | Excellent | Very | >99% |
| 8 | Excellent | Very | >99 % |
Claims (6)
1. an antibiotic anti-corrosion scatterer aluminum alloy fin is characterized in that it and is processed by the following material of forming; B:0.3-0.85 wt%, Mn:0.5-1.8 wt%, Ti:0.5-1.6 wt%, Cu:0.20-0.60 wt%, Ag:0.01-0.02 wt%, surplus is that Al and unavoidable impurities constitute.
2. the described scatterer aluminum alloy fin of claim 1 is characterized in that the content of B is: 0.45-0.75 wt%.
3. the described scatterer aluminum alloy fin of claim 1 is characterized in that the content of Mn is: 0.8-1.5 wt%.
4. the described scatterer aluminum alloy fin of claim 1 is characterized in that the content of Mn is: 0.9-1.2 wt%.
5. the described scatterer aluminum alloy fin of claim 1, the content that it is characterized in that Ti is 0.8-1.3 wt%.
6. the described scatterer aluminum alloy fin of claim 1, the content that it is characterized in that Cu is 0.20-0.45 wt%.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201110171135A CN102329987A (en) | 2011-06-23 | 2011-06-23 | Antibacterial and anticorrosive radiator aluminum alloy fin |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201110171135A CN102329987A (en) | 2011-06-23 | 2011-06-23 | Antibacterial and anticorrosive radiator aluminum alloy fin |
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| CN102329987A true CN102329987A (en) | 2012-01-25 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105177367A (en) * | 2015-08-31 | 2015-12-23 | 苏州莱特复合材料有限公司 | Antibacterial and anti-corrosion copper-based composite material and preparation method thereof |
| CN106367659A (en) * | 2016-08-30 | 2017-02-01 | 福建省邦尚环保科技有限公司 | Self-sterilizing stair railing and preparation technology thereof |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2000303133A (en) * | 1999-04-15 | 2000-10-31 | Toyota Central Res & Dev Lab Inc | Aluminum alloy for pressure casting, excellent in fatigue strength |
| CN1752248A (en) * | 2005-09-29 | 2006-03-29 | 郑州大学 | Deformed Al-Mn series alloy and preparing process thereof |
| CN1831171A (en) * | 2005-03-09 | 2006-09-13 | 三菱铝株式会社 | Aluminum alloy heat sinks of heat exchanger and heat exchanger |
-
2011
- 2011-06-23 CN CN201110171135A patent/CN102329987A/en active Pending
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2000303133A (en) * | 1999-04-15 | 2000-10-31 | Toyota Central Res & Dev Lab Inc | Aluminum alloy for pressure casting, excellent in fatigue strength |
| CN1831171A (en) * | 2005-03-09 | 2006-09-13 | 三菱铝株式会社 | Aluminum alloy heat sinks of heat exchanger and heat exchanger |
| CN1752248A (en) * | 2005-09-29 | 2006-03-29 | 郑州大学 | Deformed Al-Mn series alloy and preparing process thereof |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105177367A (en) * | 2015-08-31 | 2015-12-23 | 苏州莱特复合材料有限公司 | Antibacterial and anti-corrosion copper-based composite material and preparation method thereof |
| CN106367659A (en) * | 2016-08-30 | 2017-02-01 | 福建省邦尚环保科技有限公司 | Self-sterilizing stair railing and preparation technology thereof |
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Application publication date: 20120125 |