CN1523137A - Apparatus and process for manufacturing metallic fiber by electromoulding - Google Patents
Apparatus and process for manufacturing metallic fiber by electromoulding Download PDFInfo
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- CN1523137A CN1523137A CNA03104512XA CN03104512A CN1523137A CN 1523137 A CN1523137 A CN 1523137A CN A03104512X A CNA03104512X A CN A03104512XA CN 03104512 A CN03104512 A CN 03104512A CN 1523137 A CN1523137 A CN 1523137A
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Abstract
The present invention provides an equipment for making metal fibre by using electroforming technology and its method. It can utilize electrolytic tank to electroplate the metal on the surface of the cathode and continuously separate it. Said equipment includes electrolytic tank which can receive the electrolyte necessary for electroplating target metal fibre, insoluble anode material placed in the electrolyte and connected with negative terminal of power supply device, cathode material connected with positive terminal of power supply device, under the condition of finely grinding on the electroplated opposite surface said cathode material retains a certain distance from anode material and its part is soaked in the electrolyte and can be rotated, and several non-conductor patterns placed on the peripheral surface of cathode material to form several ring contact windows.
Description
Technical field
The present invention relates to use the steel fiber manufacturing installation and the method thereof of galvanoplastics, especially the manufacturing installation and the method thereof that relate to the steel fiber of a kind of like this galvanoplastics of use, this galvanoplastics can be from the diameter of electrolyzer according to the desired size corresponding with the cathode surface non-conductive pattern, can use the galvanized various Metal platings of motor on cathode surface and, make the successive steel fiber its continuous separation.
Prior art
Manufacturing technology about existing steel fiber, for example special 2001-0036472 number disclosed technology of Korean Patent communique arranged, and this technology has following shortcoming, promptly is subjected to the materials limitations of steel fiber, and during with the quench solidification manufactured difficult point being arranged, is exactly that diameter must be below 30 μ m in addition.
In addition, disclosedly made in the method for steel fiber by extruding or drawing for special 1995-0005949 number as the Korean Patent communique, in extrusion process, produce bondingly between the metallics, therefore after the extruding, it is very difficult separating between every fiber.
As ways of addressing this issue, the method on busy initial oxidation metal-powder surface or plate the method for other metals on the surface of metal-powder, also have the method for mixed metal powder and salt, oxide compound or carbon etc., but have the problems such as cost rising that manufacturing process is complicated and bring.
Summary of the invention
The present invention proposes in view of these prior art problems just, first purpose of the present invention is, the steel fiber manufacture method of making steel fiber by complicated procedures of forming with the past is different, a kind of use galvanoplastics is provided, can makes the steel fiber manufacture method of steel fiber and the steel fiber manufacturing installation of realizing this method is provided by single operation or minimum process number.
Second purpose of the present invention is, the steel fiber that can galvanized all metallic substance manufactures desired size.
The 3rd purpose of the present invention is, makes steel fiber continuously, overcomes the problem of past method, promptly breaks the limitation of staple length.
The 4th purpose of the present invention is that easily the size (width and thickness) of regulating steel fiber in the scope of number μ m~number mm makes it not limited by cross-sectional sizes.
In order to achieve the above object, the invention provides a kind of steel fiber manufacturing installation that uses galvanoplastics, this steel fiber manufacturing installation of making steel fiber continuously comprises: electrolyzer, can hold the needed electrolytic solution of plating that is used to carry out the metal target fiber; The insoluble anode material is arranged in the above-mentioned electrolytic solution, and is connected with negative pole (-) terminal of power supplier; Cathode material is connected with positive pole (+) terminal of above-mentioned power supplier, under by the state of galvanized opposed faces fine grinding and above-mentioned anode material maintain a certain distance, its part is immersed in the electrolytic solution, and is arranged to and can rotates; And a plurality of non-conductor figures, be arranged on the periphery of this cathode material, be used to form parallel a plurality of ring-type contact holes with the sense of rotation unanimity of cathode material, under the state of connecting power supply, be accompanied by the rotation of cathode material, the a plurality of metallic patterns that are coated with the shape of the above-mentioned a plurality of ring-type contact holes of correspondence are peeled off continuously from the surface that is exposed to airborne cathode material, obtain a plurality of steel fibers.
Above-mentioned cathode material preferably is made up of the cylinder that can support two end rotation, and above-mentioned anode material is preferably by keeping the dome-type housing of certain intervals to form with above-mentioned cathode material.
And above-mentioned cathode material also can be made up of the travelling belt of the unlimited loop type that can support to rotate, and above-mentioned anode material also can form and be immersed in the writing board shape of the lower surface maintenance certain intervals of the cathode material in the electrolytic solution.
Even for the composition that keeps electrolytic solution, above-mentioned manufacturing installation preferably also contains the electrolyte circulation means that can make circulation of elecrolyte.In this case, the circulation device of above-mentioned electrolytic solution can be drawn from the bottom of electrolyzer, by: the nozzle of its leading section between cathode material and anode material the circulating line in the space, be arranged on this circulating line and the recycle pump that is used to remove the strainer of foreign matter and is used for circular electrolyte is formed.
According to a second aspect of the invention, a kind of steel fiber manufacturing installation of making steel fiber discontinuously comprises: electrolyzer wherein accommodates the needed electrolytic solution of the plating of carrying out the metal target fiber; The insoluble anode material is arranged in the above-mentioned electrolytic solution, and is connected with negative pole (-) terminal of above-mentioned power supplier; Cathode material is connected with positive pole (+) terminal of above-mentioned power supplier, under by the state of galvanized opposed faces fine grinding and above-mentioned anode material keep certain distance, and be immersed in the electrolytic solution; A plurality of non-conductor figures, be arranged on the periphery with the opposed cathode material of above-mentioned anode material, constitute a plurality of wire contact holes, under the state of connecting power supply, peel off to electroplate at the lip-deep metallic pattern of cathode material, obtain a plurality of steel fibers with the corresponding shape of a plurality of wire contact holes.
According to a third aspect of the present invention, provide a kind of method of using galvanoplastics to make steel fiber continuously, it is characterized in that, comprise the steps: in electrolyzer, to prepare the needed electrolytic solution of plating of metal target fiber; Add DC (direct current) power supply between anode material and the cathode material, by a plurality of ring-type contact holes when the periphery of cathode material plates metal target, the rotating cathode material, wherein, the insoluble anode material is arranged in the above-mentioned electrolytic solution, cathode material is arranged to and this anode material keeps certain distance, and part is immersed in the electrolytic solution and can rotates, and is formed with a plurality of non-conductor figures of parallel a plurality of ring-type contact holes of formation and sense of rotation unanimity on the periphery of fine grinding; Be accompanied by the rotation of cathode material, peeling off continuously, as a plurality of steel fibers according to electroplating at the airborne a plurality of metallic pattern that is exposed on the surface of cathode material with the corresponding shape of above-mentioned a plurality of ring-type contact holes.
According to a forth aspect of the invention, the invention provides a kind of method of using galvanoplastics to make discontinuous steel fiber, it is characterized in that, comprise the steps: in electrolyzer, to prepare the needed electrolytic solution of plating of metal target fiber; Between insoluble plate-shaped anode material and plate-like cathodes material, add the DC power supply, by a plurality of wire contact holes, periphery at cathode material plates metal target, wherein, insoluble plate-shaped anode material is arranged in the above-mentioned electrolytic solution, plate-like cathodes material and this anode material keep certain distance, and are immersed in the electrolytic solution, are formed with a plurality of non-conductor figures that constitute parallel a plurality of wire contact holes on the periphery of fine grinding; Being exposed in the middle of the air, peel off a plurality of metallic patterns, as steel fiber by carrying out galvanized cathode material with the corresponding shape of above-mentioned a plurality of wire contact holes.
Above-mentioned manufacture method preferably also comprises following steps, promptly discharges the electrolytic solution of electrolyzer bottom, so that the composition of electrolytic solution keeps evenly, and after being filtered, the opposed faces between above-mentioned cathode material and anode material is injected.
As mentioned above, the present invention is different with prior art, by the steel fiber manufacturing of series-operation, can not be subjected to the restriction of staple length and makes.And, different with existing extruding with manufacture method such as drawing or emergency cooling solidification methods, owing to make by having used electric galvanized galvanoplastics, so,, can significantly save manufacturing cost because of technology is simple, and, can in narrow space, use simple device to produce steel fiber.
And, in the present invention, be not only the length of steel fiber, and its width, thickness also are easy to be adjusted to several μ m~number mm, be easy to make the steel fiber of desired size, be not only pure metal, operable all metals can be made steel fiber in various alloys and the existing electroplating technology.
Description of drawings
Fig. 1 be expression according to the use of first embodiment of the invention the summary construction diagram of continuous metal fiber manufacturing installation of cylinder type negative electrode;
Fig. 2 be expression according to the use of second embodiment of the invention the summary construction diagram of continuous metal fiber manufacturing installation of conveyor-type negative electrode;
Fig. 3 is the summary construction diagram of expression according to the discontinuous steel fiber manufacturing installation of the use batch-type negative electrode of third embodiment of the invention;
Fig. 4 a and Fig. 4 b are the sectional view and the front views of the cathode material surfacial pattern of expression first embodiment to the three embodiment;
Fig. 5 is the tension test result's of an expression print constructed in accordance chart;
Fig. 6 is the microphotograph of steel fiber constructed in accordance.
The explanation of preferred embodiment
Below, with reference to having showed that the accompanying drawing of preferred embodiment describes the present invention in detail.
Fig. 1 is the summary construction diagram of expression according to the continuous metal fiber manufacturing installation of first embodiment of the invention, Fig. 2 is the summary construction diagram of expression according to the continuous metal fiber manufacturing installation of second embodiment of the invention, Fig. 3 is the summary construction diagram of expression according to the discontinuous steel fiber manufacturing installation of third embodiment of the invention, Fig. 4 a and Fig. 4 b are the sectional view and the front views of the cathode material surfacial pattern of expression first embodiment to the three embodiment, wherein, first embodiment has used the cylinder type negative electrode, second embodiment has used the conveyor-type negative electrode, and the 3rd embodiment has used batch-type (Batch) negative electrode.
At first with reference to figure 1, comprise according to the apparatus for continously production of the steel fiber of first embodiment of the invention: the electrolyzer 10 that can hold the electrolytic solution 3 of metal target fiber 9; Be arranged in the electrolytic solution 3, and become the insoluble anode material 2 of dome-type shelly; Cathode material 1, cathode material 1 conduct and anode material 2 keep certain distance and opposed cylinder, the turning axle of being arranged to its both ends rotatably is supported, on the back circumferential direction of cylinder periphery fine grinding, be fixed with a plurality of non-conductor figures, so that form parallel a plurality of ring-type contact holes.
Preferably orthicon is such for above-mentioned cathode material 1, and inside is hollow, and by forming with the conductor of nonreactive stainless steel of electrolytic solution and so on, anode material 2 preferably uses on the Ti steel plate and applies IrO
2The insoluble material.
Further describe above-mentioned cathode material, shown in the stretch-out view of Fig. 4 a and Fig. 4 b, have following structure, promptly by a plurality of non-conductor figures 14, a plurality of ring-type contact hole 15a are formed on the surface of cathode material 15.In this case, the width of the ring-type contact hole 15a corresponding and width and the thickness that the degree of depth depends on the steel fiber 9 that will make with cathode material 15.Above-mentioned non-conductor figure 14 is suitable for using high-strength material as hardening resin.
The composition of above-mentioned manufacturing installation also comprises: antianode material 2 and cathode material 1 are evenly supplied with the current supply arrangement 4 of the necessary DC of electric plating (direct current) electric current; For the composition of electrolytic solution 3 keeps evenly, and remove oxygen that negative electrode produces etc. and make electrolytic solution 3 round-robin recycle pumps 5; Be used for removing strainer 6 of the foreign matter that the continuous manufacturing process of steel fiber produces etc.
In this case, preferably supply with to the electrolytic solution 3 that electrolyzer 10 round-robin are filtered through strainer 6, recycle pump 5 and circulating line 8a from the bottom of electrolyzer 10, so that evenly stirred by the space of nozzle 8 between cathode material 1 and anode material 2.
And the whipping appts of the electrolytic solution of being made up of above-mentioned strainer 6 and recycle pump 5 and circulating line 8a can be made up of along the circumference rotation or along the splash bar that the direction of principal axis rotation is moved by the turning axle support of negative electrode two ends.
In the manufacturing installation of the first embodiment of the present invention of as above forming, the electrolytic solution 3 that meets metal target fiber manufacture process needs in 10 li preparations of electrolyzer, part be immersed in the cathode materials 1 of 3 li of electrolytic solution and rotation and the anode material 2 that soaks fully between, with predetermined space between opposed two utmost points, supply with direct current, carry out electroplating accordingly to the surface of cathode material 1 from electrolyzer 10 with contact hole 15a shape by a plurality of ring-type contact hole 15a.
At this moment, along with the rotation of cathode material 1, after being electroplated onto on the contact hole and being exposed to the surface of airborne cathode material 1, sticking adhesive tape, separate.Because the surface of cathode material 1 is ground, the lip-deep metal that is plated in cathode material 1 is as a plurality of steel fibers 9, be easy to peel off and obtained,, can obtain the steel fiber 9 corresponding continuously with the figure of ring-type contact hole 15a along with the rotation of cathode material 1.
Then, under situation about the steel fiber of peeling off 9 being fixed on the coiling apparatus 7, steel fiber 9 the rotation along with cathode material 1 generates continuously is wound on the coiling apparatus 7, just can obtain the steel fiber with even composition and uniform-dimension of length that the user requires.
According to the resulting steel fiber 9 of above-mentioned manufacture method, what be applicable to any kind of can carry out electric electroplated metal, according to the size setting of ring-type contact hole 15a, can obtain the steel fiber of number μ m~number mm size.
According to first embodiment, when for example making the Fe-80wt%Ni alloy fiber, use nickelous chloride and vitriol electrolytic solution 3 as main component, the cathode material 1 of swing roller type just can be made the Fe-80wt%Ni alloy fiber with even composition continuously.At this moment, current density is preferably in 3~40A/dm
2Scope in supply with, the flow rate pump that is used to stir electrolytic solution 3 preferably at the pH value of 30~200cm/sec, electrolytic solution preferably 1~5, the temperature of electrolytic solution is preferably in the scope of normal temperature~50 ℃.
With reference to figure 2, displaying be according to the use of second embodiment of the invention the manufacturing installation of continuous metal fiber of conveyor-type negative electrode.
In above-mentioned second embodiment, except cathode material 11 and anode material 2a, other part-structures are identical with first embodiment, wherein, cathode material 11 is formed the conveyer structure that can support the unlimited annular attitude of rotating, anode material 2a forms writing board shape, makes itself and cathode material 11 keep certain interval.
Therefore, the part to identical with first embodiment is marked with identical label to same member, and omits relevant therewith explanation.In this case, on the surface of cathode material 11, as first embodiment, adhere to a plurality of non-conductor figures 14.
Therefore, in second embodiment of structure as mentioned above, carousel driving rolls 11a, 11b, then can continuous production and the sense of rotation of cathode material 11 consistent, with the corresponding steel fiber 9 of a plurality of ring-type contact hole 15a, and the steel fiber 9 of its production twists on the coiling apparatus 7 through guide wheel 12.
According to the resulting steel fiber 9 of above-mentioned second embodiment be the same according to the resulting steel fiber of first embodiment.
Fig. 3 is to use the batch-type negative electrode, can make the manufacturing installation according to third embodiment of the invention of discontinuous steel fiber, and cathode material 13 and anode material 2a form the writing board shape of mutual correspondence.
In the 3rd embodiment, except the shape of cathode material 13, other part-structures are the same with second embodiment.Therefore, the part to identical with second embodiment is marked with identical label, and omits relevant therewith explanation.In this case, on the surface of cathode material 11, as described in the second embodiment, adhere to a plurality of non-conductor figures 14 (with reference to Fig. 4 a and Fig. 4 b).
In the 3rd embodiment, cathode material 13 is arranged on 10 li electrolyzers, implements electric plating, when electroplating on the surface of cathode material, by non-conductor figure 14 decision with a plurality of parallel corresponding uniform a plurality of steel fibers of length of contact hole, need not to cut off just can obtain.Above-mentioned the 3rd embodiment just periodically this repeatedly process, just can obtain the batch-type manufacture method of length even metal fiber at regular intervals.
Reference example describes in detail more according to above-mentioned steel fiber manufacture method of the present invention.
(embodiment 1)
As shown in Figure 1, use cylinder type cathode material 1, make and contain the steel fiber that Fe-80wt%Ni forms.In order to make the Fe-80wt%Ni alloy fiber, use with nickelous chloride and vitriol electrolytic solution 3 as main component, on one side swing roller type cathode material 1, making the Fe-80wt%Ni alloy fiber on one side, the result can make continuously and form the even metal fiber.At this moment, be 10A/dm in current density
2Scope in power, the flow rate pump that stirs electrolytic solution 3 is 120cm/sec, the pH value of electrolytic solution is 3, the temperature of electrolytic solution is 45 ℃.
The steel fiber intensity that mensuration is come out by above condition manufacturing and obtain pictorialization in Fig. 5.Usually, as the yield strength and the hardness value of Fe-80wt%Ni alloy, known to value be respectively 97Mpa and 60HRB (345Mpa) (Metal Handbook, ASM 9th ed.Vol.3p.610: " metals handbook ", ASM. the 9th edition, the 3rd Zheng, the 610th page).Mensuration is according to the intensity of the Fe-80wt%Ni alloy fiber of the present invention's manufacturing, by inquiry as can be known, yield strength and hardness are respectively 2119Mpa and 6170Mpa, can understand from this result, steel fiber of the present invention with compare in the past, have approximately strong 20 times mechanical characteristics.
(embodiment 2)
As shown in Figure 1, use the cathode material 1 of cylinder type to make the Ni fiber.In order to make the Ni fiber, use with nickelous chloride and vitriol electrolytic solution 3 as main component, on one side swing roller type cathode material 1, make the Ni fiber on one side, form the even metal fiber thereby can make continuously.At this moment, be 10A/dm in current density
2Scope in power, the flow rate pump that is used to stir electrolytic solution 3 is in the scope of 120cm/sec, the pH value of electrolytic solution is 3, the temperature of electrolytic solution is 45 ℃.
Microphotograph by the steel fiber of above condition manufacturing is shown in Fig. 6, and the thickness of the steel fiber of investigation result manufacturing is uniform.
As mentioned above, the present invention is different with technology in the past, makes steel fiber by continuous processing, according to this manufacture method, not made by the restriction of staple length.And the method made from existing extruding and drawing or emergency cooling solidification method is different, uses electric galvanized galvanoplastics and makes, because technology simplification, manufacturing cost is significantly saved, and, can in narrow space, use simple equipment pan in next life to belong to fiber.
In addition, in the present invention, be not only the length of steel fiber, and its width, thickness also are easy to be adjusted to several μ m~number mm, can make the steel fiber of desired size easily, be not only pure metal, and to various alloys and in existing electroplating work procedure operable all metals, can carry out the fiber manufacturing.
More than, with specific preferred embodiment as an example, describe the present invention, but the invention is not restricted to the foregoing description, without departing from the spirit and scope of the present invention, can carry out various changes and correction by the people of the technical field knowledge under grasp the present invention.
Claims (11)
1. a steel fiber manufacturing installation that uses galvanoplastics to make steel fiber continuously is characterized in that, comprising:
Electrolyzer can hold the needed electrolytic solution of plating that is used to carry out the metal target fiber;
The insoluble anode material is arranged in the above-mentioned electrolytic solution, and is connected with negative pole (-) terminal of power supplier;
Cathode material is connected with positive pole (+) terminal of above-mentioned power supplier, under by the state of galvanized opposed faces fine grinding and above-mentioned anode material maintain a certain distance, its part is immersed in the electrolytic solution, and is arranged to and can rotates; With
A plurality of non-conductor figures are arranged on the periphery of above-mentioned cathode material, are used to form the parallel a plurality of ring-type contact holes with the sense of rotation unanimity of cathode material,
Under the state of connecting power supply, be accompanied by the rotation of cathode material, from being exposed to the surface of airborne cathode material, will be peeled off continuously by galvanized a plurality of metallic patterns according to shape corresponding to above-mentioned a plurality of ring-type contact holes, obtain a plurality of steel fibers.
2. the steel fiber manufacturing installation of use galvanoplastics as claimed in claim 1 is characterized in that above-mentioned cathode material is made up of the cylinder that its both ends can be supported rotation,
Above-mentioned anode material and above-mentioned cathode material keep certain distance, form the dome-type shelly.
3. the steel fiber manufacturing installation of use galvanoplastics as claimed in claim 1 is characterized in that above-mentioned cathode material is made up of the travelling belt of the unlimited annular attitude that can be supported rotation,
Above-mentioned anode material maintains a certain distance with the lower surface that is immersed in the cathode material in the electrolytic solution, forms writing board shape.
4. the steel fiber manufacturing installation of use galvanoplastics as claimed in claim 1 is characterized in that, above-mentioned cathode material is by constituting with the nonreactive conductor of electrolytic solution, and anode material is by apply IrO on the Ti steel plate
2The insoluble material constitute.
5. the steel fiber manufacturing installation of use galvanoplastics as claimed in claim 1, it is characterized in that, be formed on the width and the degree of depth of each ring-type contact hole on cathode material surface by above-mentioned non-conductor figure, depend on width and the thickness of wanting the steel fiber made.
6. as the steel fiber manufacturing installation of claim 1, it is characterized in that to any one described use galvanoplastics of claim 5, even for the composition that keeps electrolytic solution, also comprise the electrolyte circulation means that is used for circulation of elecrolyte.
7. the steel fiber manufacturing installation of use galvanoplastics as claimed in claim 6, it is characterized in that, the circulation device of above-mentioned electrolytic solution comprises: from the circulating line that draw the bottom of electrolyzer, in its leading section nozzle space between cathode material and anode material; Be arranged on the strainer that is used to remove foreign matter on the described circulating line; And be used for recycle pump with circulation of elecrolyte.
8. a steel fiber manufacturing installation that uses galvanoplastics to make steel fiber discontinuously is characterized in that, comprising:
Electrolyzer wherein accommodates the needed electrolytic solution of the plating of carrying out the metal target fiber;
The insoluble anode material is arranged in the above-mentioned electrolytic solution, and is connected with negative pole (-) terminal of above-mentioned power supplier;
Cathode material is connected with positive pole (+) terminal of above-mentioned power supplier, under by the state of galvanized opposed faces fine grinding and above-mentioned anode material keep certain distance, and be immersed in the electrolytic solution;
A plurality of non-conductor figures are arranged on the periphery with the opposed cathode material of above-mentioned anode material, constitute a plurality of wire contact holes,
Under the state of connecting power supply, peel off to electroplate at the lip-deep metallic pattern of cathode material with the corresponding shape of a plurality of wire contact holes, obtain a plurality of steel fibers.
9. a steel fiber manufacture method of using galvanoplastics to make steel fiber continuously is characterized in that, comprises the steps:
In electrolyzer, prepare the needed electrolytic solution of plating of metal target fiber;
Between anode material and cathode material, add the DC power supply, by a plurality of ring-type contact holes when the periphery of cathode material plates the purpose metal, the rotating cathode material, wherein, the insoluble anode material is arranged in the above-mentioned electrolytic solution, cathode material is arranged to and this anode material keeps certain distance, and part is immersed in the electrolytic solution and can rotates, and is formed with to constitute and a plurality of non-conductor figures of parallel a plurality of ring-type contact holes of sense of rotation unanimity on the periphery of fine grinding;
Be accompanied by the rotation of above-mentioned cathode material, peeling off continuously at the airborne a plurality of metallic patterns of being exposed at of cathode material surface, as a plurality of steel fibers according to electroplating with the corresponding shape of above-mentioned a plurality of ring-type contact holes.
10. a manufacture method of using the discontinuous steel fiber of galvanoplastics is characterized in that, comprises the steps:
In electrolyzer, prepare the needed electrolytic solution of plating of metal target fiber;
Between insoluble plate-shaped anode material and plate-like cathodes material, add the DC power supply, by a plurality of wire contact holes, periphery at cathode material is electroplated metal target, wherein, insoluble plate-shaped anode material is arranged in the above-mentioned electrolytic solution, plate-like cathodes material and this anode material keep certain distance, and are immersed in the electrolytic solution, are formed with a plurality of non-conductor figures that constitute parallel a plurality of wire contact holes on the periphery of fine grinding;
Being exposed in the middle of the air, peel off a plurality of metallic patterns, as steel fiber according to carrying out galvanized cathode material with the corresponding shape of above-mentioned a plurality of wire contact holes.
The shape of corresponding above-mentioned a plurality of wire contact holes is carried out galvanized cathode material, be exposed in the middle of the air, peel off a plurality of metallic patterns, as steel fiber,
11. the manufacture method as the discontinuous steel fiber of claim 9 or the described use galvanoplastics of claim 10 is characterized in that, also comprises the steps:
Discharge electrolytic solution from the bottom of electrolyzer, after filtering, the opposed faces between above-mentioned cathode material and anode material is injected, so that keep the composition of electrolytic solution even.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNA03104512XA CN1523137A (en) | 2003-02-17 | 2003-02-17 | Apparatus and process for manufacturing metallic fiber by electromoulding |
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| CNA03104512XA CN1523137A (en) | 2003-02-17 | 2003-02-17 | Apparatus and process for manufacturing metallic fiber by electromoulding |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100564606C (en) * | 2005-12-06 | 2009-12-02 | 安泰科技股份有限公司 | Apparatus for continuous electrodepositing of metallic film and method thereof |
| TWI666346B (en) * | 2017-11-28 | 2019-07-21 | 南韓商波斯可股份有限公司 | Electroplating apparatus |
| CN118322114A (en) * | 2024-06-17 | 2024-07-12 | 浙江微铸科技有限公司 | Bus preparation method, diamond wire, preparation method of diamond wire and silicon wafer cutting application |
-
2003
- 2003-02-17 CN CNA03104512XA patent/CN1523137A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100564606C (en) * | 2005-12-06 | 2009-12-02 | 安泰科技股份有限公司 | Apparatus for continuous electrodepositing of metallic film and method thereof |
| TWI666346B (en) * | 2017-11-28 | 2019-07-21 | 南韓商波斯可股份有限公司 | Electroplating apparatus |
| CN118322114A (en) * | 2024-06-17 | 2024-07-12 | 浙江微铸科技有限公司 | Bus preparation method, diamond wire, preparation method of diamond wire and silicon wafer cutting application |
| CN118322114B (en) * | 2024-06-17 | 2024-08-23 | 浙江微铸科技有限公司 | Bus preparation method, diamond wire, preparation method of diamond wire and silicon wafer cutting application |
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