CN102181906A - Method for processing thin layer on surface of MB8 magnesium alloy - Google Patents
Method for processing thin layer on surface of MB8 magnesium alloy Download PDFInfo
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- CN102181906A CN102181906A CN 201110101499 CN201110101499A CN102181906A CN 102181906 A CN102181906 A CN 102181906A CN 201110101499 CN201110101499 CN 201110101499 CN 201110101499 A CN201110101499 A CN 201110101499A CN 102181906 A CN102181906 A CN 102181906A
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Abstract
The invention discloses a method for processing a thin layer on the surface of an MB8 magnesium alloy, belonging to the field of processing research on the thin layer on the surface of the MB8 magnesium alloy. In the method, on the basis of an AC (alternate current) plasma microarc oxidation processing method, the thin protection layer with uniform thickness of 8 to 14mum can be formed on the surface of the MB8 magnesium alloy by spraying oxygen into a treatment solution so as to improve the uniformity that the treatment solution reacts with the magnesium alloy and carrying out AC plasma microarc oxidation surface processing on the MB8 magnesium alloy for 68 to 85 seconds under the conditions that the concentration of potassium fluoride is 595 to 597g/L, the concentration of potassium hydroxide is 292 to 294g/L, the power frequency AC voltage is 94 to 96V and the oxygen spraying amount in each liter of treatment solution is 0.01 to 0.02L/s.
Description
Technical field
The present invention relates to a kind of MB8 Mg alloy surface thin layer treatment process.
Background technology
Publication number: CN1900382A; denomination of invention: on " a kind of MB8 surface treatment method of Mg alloy "; set forth MB8 magnesium alloy ac plasma differential arc oxidation treatment method; promptly; employing contains the treatment solution of Potassium monofluoride and potassium hydroxide; power frequency AC by voltate regulator control provides electric energy; in cycle, utilize the yin, yang ion in the treatment solution to carry out the TRANSIENT HIGH TEMPERATURE of plasma micro-arc discharge generation at the MB8 Mg alloy surface at each power frequency ac voltage at MB8 Mg alloy surface formation protective layer.Utilize this ac plasma differential arc oxidation treatment method; disclosed Potassium monofluoride concentration is that 1051~1200g/L, concentration of potassium hydroxide are that 371~400g/L, power frequency ac voltage are under 50~61V condition in patent CN1900382A; can be in 90~120 seconds, make that MB8 Mg alloy surface growth in situ goes out that 15~35 μ m are thick, homogeneous microstructure and complete protective layer.But, adopt the CN1900382A patented method at the thin layer of mean thickness below 15 μ m that the MB8 Mg alloy surface forms, exist comparatively serious became uneven to spare phenomenon, its corrosion resistance nature is relatively poor.
For the sealer of MB8 magnesium alloy, less especially when 15 μ m are following at mean thickness, its thickness is even more, and corrosion resistance nature is good more, and therefore, during less than 15 μ m, MB8 Mg alloy surface thickness of thin layer is even more good more at mean thickness.
Summary of the invention
Technical problem to be solved by this invention is, overcome the deficiency of existing ac plasma differential arc oxidation treatment method " the skin layer thickness evenness is poor ", a kind of ac plasma differential arc oxidation treatment method that can form the uniform thin layer of thickness at the MB8 Mg alloy surface is provided, further improves the thickness evenness of MB8 Mg alloy surface thin layer.
The technical solution adopted for the present invention to solve the technical problems is: on ac plasma differential arc oxidation treatment method basis, in treatment solution, spray into oxygen to improve treatment solution and magnesium alloy reaction uniformity, and be that 595~597g/L, concentration of potassium hydroxide are that 292~294g/L, power frequency ac voltage are that 94~96V, every liter of treatment solution oxygen straying quatity are under 0.01~0.02L/s condition in Potassium monofluoride concentration, the MB8 magnesium alloy is carried out 68~85 seconds ac plasma Microarc Oxidation Surface Treatment.
The invention has the beneficial effects as follows: for the sealer of magnesium alloy, want to improve the homogeneity of its thickness, must strengthen treatment solution and magnesium alloy are reacted inhomogeneity control.When magnesium alloy is carried out surface treatment, because the chemical ingredients of Mg alloy surface is different, therefore, under the effect of impressed electromotive force, ion in the treatment solution will converge to the little Mg alloy surface place of energy consumption, cause the inhomogeneous of surface reaction, thereby the became uneven that causes sealer, if when carrying out surface treatment, by in treatment solution, spraying into oxygen treatment solution is stirred, then the ion in the treatment solution will be dispersed in the treatment solution relatively equably, thereby can avoid a large amount of ions in the treatment solution to converge phenomenon to the little Mg alloy surface place of energy consumption, and then the homogeneity of Mg alloy surface protective layer thickness is improved; In addition; the high temperature that surface reaction produces can cause the oxygen that sprays in the treatment solution to form a large amount of oxygen plasmas; these oxygen plasmas have poising action to the reaction of Mg alloy surface; will further improve the homogeneity of surface reaction; the present invention utilizes the stirring action of the oxygen of each surface treatment parameter optimization combination back formation and the poising action that oxygen plasma reacts Mg alloy surface; further improve treatment solution and magnesium alloy reaction uniformity, thereby reached the inhomogeneity purpose of raising Mg alloy surface protective layer thickness.Utilize the present invention, the MB8 magnesium alloy is carried out surface treatment, can in 68~85 seconds, obtain the thick protection thin layer of uniform 8~14 μ m of thickness.
Description of drawings
Fig. 1 carries out the front view of surface processing device to the MB8 magnesium alloy for the inventive method.
Among the figure, power frequency AC 1, lead 2, voltate regulator 3, lead 4, MB8 magnesium alloy workpiece 5, treatment solution 6, oxygen jet 7, oxygen pump 8, treatment trough 9.
Fig. 2 is the microtexture at the processing interface of adopting the inventive method that the MB8 magnesium alloy is carried out to obtain after the surface treatment.
Embodiment
It is as follows in conjunction with the accompanying drawings the inventive method to be carried out specifying of surface processing device to the MB8 magnesium alloy:
The MB8 magnesium alloy is carried out surface processing device mainly to be comprised: power frequency AC 1, voltate regulator 3, oxygen jet 7, oxygen pump 8, treatment trough 9.
The input terminus of voltate regulator 3 links to each other by lead 2 with power frequency AC 1, and the output terminal of voltate regulator 2 links to each other by lead 4 with MB8 magnesium alloy workpiece 5.Oxygen jet 7 adopts the teflon seal mode of connection to be fixed on the bottom of treatment trough 9, and the one end stretches in the treatment solution 6, and the other end links to each other with oxygen pump 8.
Power frequency AC 1 is an industry power frequency AC commonly used.Voltate regulator 3 can adopt the Mg alloy surface of buying on the market that can provide to handle the voltate regulator of any model of required electric energy.Oxygen jet 7 is a tetrafluoroethylene with the material of treatment trough 9.MB8 magnesium alloy workpiece 5 need carry out oil removing, polishing and cleaning pre-treatment.
A kind of MB8 Mg alloy surface thin layer treatment process, adopt the ac plasma differential arc oxidation treatment method that the MB8 magnesium alloy is carried out surface treatment, in treatment solution, spray into oxygen carrying out preceding 1 minute of surface treatment beginning, and be that 595~597g/L, concentration of potassium hydroxide are that 292~294g/L, power frequency ac voltage are that 94~96V, every liter of treatment solution oxygen straying quatity are under 0.01~0.02L/s condition in Potassium monofluoride concentration, the MB8 magnesium alloy is carried out 68~85 seconds ac plasma Microarc Oxidation Surface Treatment.
Embodiment one, in Potassium monofluoride concentration is that 595g/L, concentration of potassium hydroxide are that 292g/L, power frequency ac voltage are that 94V, every liter of treatment solution oxygen straying quatity are under the 0.01L/s condition, after the ac plasma Microarc Oxidation Surface Treatment 68 seconds, can form the thick thin layer of the uniform 8 μ m of thickness at the MB8 magnesium alloy work-piece surface.
Embodiment two, in Potassium monofluoride concentration is that 595g/L, concentration of potassium hydroxide are that 294g/L, power frequency ac voltage are that 96V, every liter of treatment solution oxygen straying quatity are under the 0.01L/s condition, after the ac plasma Microarc Oxidation Surface Treatment 68 seconds, can form the thick thin layer of the uniform 10 μ m of thickness at the MB8 magnesium alloy work-piece surface.
Embodiment three, in Potassium monofluoride concentration is that 597g/L, concentration of potassium hydroxide are that 292g/L, power frequency ac voltage are that 94V, every liter of treatment solution oxygen straying quatity are under the 0.02L/s condition, after the ac plasma Microarc Oxidation Surface Treatment 85 seconds, can form the thick thin layer of the uniform 12 μ m of thickness at the MB8 magnesium alloy work-piece surface.
Embodiment four, in Potassium monofluoride concentration is that 597g/L, concentration of potassium hydroxide are that 294g/L, power frequency ac voltage are that 96V, every liter of treatment solution oxygen straying quatity are under the 0.01L/s condition, after the ac plasma Microarc Oxidation Surface Treatment 85 seconds, can form the thick thin layer of the uniform 14 μ m of thickness at the MB8 magnesium alloy work-piece surface.
Embodiment five, in Potassium monofluoride concentration is that 595g/L, concentration of potassium hydroxide are that 292g/L, power frequency ac voltage are that 96V, every liter of treatment solution oxygen straying quatity are under the 0.02L/s condition, after the ac plasma Microarc Oxidation Surface Treatment 68 seconds, can form the thick thin layer of the uniform 9 μ m of thickness at the MB8 magnesium alloy work-piece surface.
As seen; in Potassium monofluoride concentration is that 595~597g/L, concentration of potassium hydroxide are that 292~294g/L, power frequency ac voltage are that 94~96V, every liter of treatment solution oxygen straying quatity are under 0.01~0.02L/s condition; the MB8 magnesium alloy is carried out 68~85 seconds ac plasma Microarc Oxidation Surface Treatment, can form the thick protection thin layer of uniform 8~14 μ m of thickness at the MB8 Mg alloy surface.
Accompanying drawing 2 is the microtexture at the processing interface of adopting the inventive method that the MB8 magnesium alloy is carried out to obtain after the surface treatment.The zone that the figure middle and upper part is light color is a protective layer, and it is the MB8 magnesium alloy substrate that the bottom is dark zone, and as seen, the thickness of protection thin layer is very even.As seen, the present invention can form thickness at the MB8 Mg alloy surface and protect thin layer uniformly.
Claims (1)
1. MB8 Mg alloy surface thin layer treatment process, adopt the ac plasma differential arc oxidation treatment method that the MB8 magnesium alloy is carried out surface treatment, it is characterized in that, in treatment solution, spray into oxygen carrying out preceding 1 minute of surface treatment beginning, and be that 595~597g/L, concentration of potassium hydroxide are that 292~294g/L, power frequency ac voltage are that 94~96V, every liter of treatment solution oxygen straying quatity are under 0.01~0.02L/s condition in Potassium monofluoride concentration, the MB8 magnesium alloy is carried out 68~85 seconds ac plasma Microarc Oxidation Surface Treatment.
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CN2011101014991A CN102181906B (en) | 2011-04-22 | 2011-04-22 | Method for processing thin layer on surface of MB8 magnesium alloy |
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CN2011101014991A CN102181906B (en) | 2011-04-22 | 2011-04-22 | Method for processing thin layer on surface of MB8 magnesium alloy |
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CN102181906B CN102181906B (en) | 2012-08-08 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104388865A (en) * | 2014-11-14 | 2015-03-04 | 无锡阳工机械制造有限公司 | Titanium alloy surface treatment method |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1405361A (en) * | 2002-10-31 | 2003-03-26 | 上海交通大学 | Magnesium alloy ultrasonic anode oxidation method |
CN1900383A (en) * | 2006-07-05 | 2007-01-24 | 北京交通大学 | AZ91 magnesium alloy surface treating method |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1405361A (en) * | 2002-10-31 | 2003-03-26 | 上海交通大学 | Magnesium alloy ultrasonic anode oxidation method |
CN1900383A (en) * | 2006-07-05 | 2007-01-24 | 北京交通大学 | AZ91 magnesium alloy surface treating method |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104388865A (en) * | 2014-11-14 | 2015-03-04 | 无锡阳工机械制造有限公司 | Titanium alloy surface treatment method |
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