CN203649042U - Superfine magnesium silk lot manufacturing equipment - Google Patents

Abstract

The utility model provides superfine magnesium silk lot manufacturing equipment. The equipment is used for drawing and deforming pure magnesium silks into required small diameter specification from original large diameter specification through multiple continuous steps, meanwhile heated inert gas is used for annealing the pure magnesium silks in an in situ blowing manner during the drawing process and also take an oxidation prevention protective effect during the drawing process, and after the processing is completed, as an anti-oxidation measure for long-time storage, coating protective treatment is carried out on the surfaces of the pure magnesium silks finally. The superfine magnesium silk lot manufacturing equipment ensures the safety and stability of magnesium silk material; the whole processing and manufacturing process is carried out under the protection of inert gas; and finally an anti-oxidation protective coating is used, so that the long-time storage problem of the magnesium silk material is solved.

Description

A kind of ultra-fine magnesium silk manufacturing equipment in batches

Technical field

The utility model relates to the manufacturing equipment of metal material technical field, specifically a kind of batch manufacturing equipment of magnesium silk of ultrafine diameter.

Background technology

Metal wire material is the very important raw material of medical instruments field, can be used for weaving the apparatus products such as polytype embedded type support, but the production of magnesium metal wire material has larger difficulty, this is mainly because the metal material processing such as magnesium and magnesium alloy there will be serious work hardening phenomenon later, if can not effectively remove work hardening, can in following process, there is phenomenon of rupture.Manufacture the magnesium silk of diameter tiny (for example 0.3mm is following), can adopt drawing processing to obtain, but also have the problem of serious work hardening, need to effectively remove machining stress processing, softener material, makes processing can continue, stably go on.

Eliminate work hardening and generally need adopt the mode of heating anneal, make the process such as microscopic structure generation Recovery and recrystallization of metal material, reach the object of eliminating machining stress, softener material.And existing process technology, carries out respectively multi pass drawing and annealing by magnesium silk, each drawing and annealing all need independent operation, have greatly affected its production efficiency, are difficult to carry out production in enormous quantities on a large scale.

Special in ultra-fine magnesium wire, more there is no ripe mass production processes and equipment at present.The utility model has been filled up above this blank.

Chinese Patent Application No. 201220166881.0 has been announced a kind of annealing regulation device of continuous annealing big drawing machine; this patent is mainly annealed to processed material by changing its galvanic mode; its drawing adds does not protect gas to protect material man-hour; material and airborne oxygen in manufacture process; the contacts such as moisture content also react, and produce the adverse consequences such as oxidation or spot corrosion.And the material conductance of this kind of Annealing Scheme, wire diameter size, conductor (also needing the silk material of annealing) length, conduction time and voltage all can directly affect its caloric value, are therefore difficult to accurately control temperature.Magnesium metal is tiny silk material particularly, if annealing temperature control is improper, very easily occurs magnesium combustion phenomena.Because this equipment is without any safeguard measure, obviously can not be used for the low ignition point metal wire material production and processing as magnesium.

In addition, magnesium is easy to production layer of oxide layer while depositing in air, and magnesium silk material diameter is tiny in addition, easily produces point-like or local fracture after long-term storage, and raw material cannot reuse, undoubtedly the implementation to magnesium silk and the practical obstacle that produced.Therefore the preservation of magnesium metal ultra-fine wire is also problem very crucial in industrialization.

Finally, it is generally acknowledged that pure magnesium mechanical strength is lower, therefore in prior art scheme, generally adopted alloy (as Mg-Al-Mn alloy in above-mentioned two patents etc.).On the one hand, some alloy element has potential toxic action to human body, and as Al has clearer and more definite neurotoxicity, the rare earth element (Ce, Nd, Pr etc.) extensively adopting in magnesium alloy may cause liver kidney to assemble toxicity.On the other hand, if the control of alloy element percentage composition is not good or the control of subsequent forming process is not meticulous, than being easier to produce Second Phase Precipitation precipitated phase particle, and second-phase generally forms the micro-galvanic couple of corrosion with matrix, cause corroding the non-homogeneous spot corrosion in degradation process, this is very disadvantageous to the tiny silk material of diameter.

And the utility model can adopt the pure magnesium material that purity is higher, by controlling, make it have tiny uniform tissue, higher mechanical property, corrosion degraded is simultaneously relatively even.To this, not yet open report in prior art.

Utility model content

Because magnesium is very easily oxidized in air, according to existing magnesium silk process technology scheme, be machined to thinner or superfine specification (such as 0.05-0.5mm) from thicker specification and need multi-step processing and annealing, process loaded down with trivial details, production efficiency is low, and in processing and annealing process or after processing, very easily contact with air and produces and be oxidized the defect that causes.Therefore, the utility model, for the deficiency of prior art and equipment existence, provides a kind of batch machining equipment of ultra-fine magnesium silk, both can solve the above-mentioned making problem of the ultra-fine magnesium silk of general industry, has also solved the preservation problem of magnesium silk simultaneously.

For realizing above-mentioned object, ultra-fine magnesium silk described in the utility model manufacturing equipment in batches, this equipment comprises: reducing draw-off gear, in-situ annealing device and coating protection treating apparatus continuously, one end of described continuous reducing draw-off gear is the entrance of major diameter magnesium silk to be processed, and major diameter magnesium silk is machined to ultra-fine magnesium silk through continuous reducing draw-off gear; The other end of reducing draw-off gear is provided with the in-situ annealing device that magnesium silk is carried out to original position winding-up with the inert gas of heating continuously, and the other end of described in-situ annealing device arranges the coating protection treating apparatus that ultra-fine magnesium silk is carried out to inoxidzable coating processing.

Preferably, described continuous reducing draw-off gear, by organizing drawing mould and power wheel forms more, power wheel is arranged between two adjacent drawing moulds, drawing mould internal diameter progressively reduces from big to small, the single deflection of drawing mould internal diameter is 2-8%, and power wheel provides drawing power for the drawing of magnesium silk; Major diameter magnesium silk by power wheel provide drawing power through many group drawing moulds progressively drawing be machined to ultra-fine magnesium silk.The utlity model has the drawing mould of multiple different inner diameters, can realize the rapid drawing modification of continuous steps, magnesium metal silk is pulled to needed diameter by clamped one time.

Preferably, described in-situ annealing device, formed by the inert gas air inlet connecting successively, inert gas heater, inert gas gas outlet, wherein: inert gas enters inert gas heater by inert gas air inlet, the inert gas after heating is jetted to magnesium silk by inert gas gas outlet original position.Inert gas heater is heated to after required annealing temperature inert gas, magnesium silk in drawing deformation process is blowed and sprayed to heating, this process has not only been carried out in-situ annealing to magnesium silk, avoid the complicated operation that magnesium silk is taken off repeatedly, also the drawing process of magnesium silk has been carried out to effective anti-oxidation processing simultaneously.Inert gas used is a kind of in nitrogen, helium, neon, argon, krypton, xenon, carbon dioxide or mixes arbitrarily.

Preferably, described in-situ annealing Plant arrangement is between two drawing moulds.

Preferred, described inert gas heater comprises a helical form hollow pipe, and one end of this pipe connects inert gas air inlet, and the other end connects inert gas gas outlet, and described helical form hollow pipe outside is heating region.Adopt the mode of helix tube heating, make flowing gas in flow process by heating and thermal insulation at any time, guarantee that near gas temperature gas outlet is consistent with required annealing temperature.

Preferred, there is temperature sensor described helical form hollow pipe inside, can observe at any time and adjust heating-up temperature.

Preferably, described coating protection treating apparatus comprises a coating water-bath, in this pot, load inoxidzable coating solution, coating water-bath inner bottom part is provided with one or more guide wheels that advance for guide wire magnesium silk, described guide wheel is dipped in inoxidzable coating solution, in the time of magnesium silk process coating water-bath guide wheel, can make it progressively immerse inoxidzable coating solution, and can control the magnesium filament length degree in solution by the quantity of guide wheel, control its soak time to realize.And the utility model, by adopting guide wheel, when magnesium silk is processed into after ultra-fine magnesium silk, does not need to take off, directly adopt lixiviate mode by the solution of required coating and carry out drying and processing subsequently to finished product and preserve.

Described magnesium silk is the pure magnesium of high-purity, and content of magnesium is more than 99.99%; Described ultra-fine magnesium silk refers to that diameter is the magnesium silk of 0.05-0.5mm.

Preferably, described equipment further comprises finished product bobbins, this finished product bobbins be arranged on described coating protection treating apparatus after.

Compared with prior art, the utlity model has following beneficial effect:

Mentioned equipment in the utility model, breaks the limitation of prior art, can use the pure magnesium material that purity is higher, not only has higher mechanical strength, and corrosion degraded is evenly controlled, also can meet degree of purity and stability as medical magnesium silk;

The utility model arranges continuous reducing draw-off gear, in-situ annealing device, when carrying out repeatedly drawing modification, magnesium metal silk carries out the annealing in process of inert gas original position winding-up, do not need the extra complicated operation that magnesium silk is taken off repeatedly, also the drawing process of magnesium silk has been carried out to effective anti-oxidation processing (inert gas) simultaneously, thereby can realize from thin footpath magnesium silk and be machined directly into ultra-fine magnesium silk by an equipment, making to be applicable to magnesium silk production efficiency is greatly improved, solved again magnesium silk as active metal in process simultaneously, problem of oxidation in the processes such as annealing process,

The utility model in-situ annealing device adopts the mode of helix tube heating, make flowing gas in flow process by heating and thermal insulation at any time, guarantee that near gas temperature gas vent is consistent with required annealing temperature, can carry out the annealing of 80 ℃～280 ℃, annealing effect is even more ideal;

The utility model magnesium silk, after manufacture completes, adopts coating protection treating apparatus to carry out face coat protective treatment, as the anti-oxidation measure of permanent preservation, has solved the problem of oxidation in the long-time storing process after finished product.

Accompanying drawing explanation

By reading the detailed description of non-limiting example being done with reference to the following drawings, it is more obvious that other features, objects and advantages of the present utility model will become:

Fig. 1 is ultra-fine magnesium silk manufacturing equipment structural representation in batches;

Fig. 2 is in-situ annealing apparatus structure schematic diagram;

In figure, the 1st, major diameter magnesium silk to be processed, the 2nd, the magnesium silk completing through multistep continuous drawing, the 3rd, the finished product magnesium silk after coating is soaked, the 4th, guide wheel, the 5th, finished product bobbins, the 6th, coating water-bath, the 7th, inoxidzable coating solution, the 8th, power wheel, the 9th, in-situ annealing device, the 10th, drawing mould, the 11st, inert gas air inlet, the 12nd, inert gas heating helix tube, the 13rd, inert gas heating region, the 14th, inert gas gas outlet.

The specific embodiment

Below in conjunction with specific embodiment, the utility model is elaborated.Following examples will contribute to those skilled in the art further to understand the utility model, but not limit in any form the utility model.It should be pointed out that to those skilled in the art, without departing from the concept of the premise utility, can also make some distortion and improvement.These all belong to protection domain of the present utility model.

As shown in Figure 1: the utility model equipment comprises: reducing draw-off gear, in-situ annealing device 9 and coating protection treating apparatus continuously, one end of described continuous reducing draw-off gear is the entrance of major diameter magnesium silk 1 to be processed, and major diameter magnesium silk to be processed is machined to ultra-fine magnesium silk through continuous reducing draw-off gear; The other end of reducing draw-off gear is provided with the in-situ annealing device that magnesium silk is carried out to original position winding-up with the inert gas of heating continuously, and the other end of described in-situ annealing device arranges the coating protection treating apparatus that ultra-fine magnesium silk is carried out to inoxidzable coating processing.

As shown in Figure 1, described continuous reducing draw-off gear by organizing drawing mould 10 and power wheel 8 forms more.Power wheel is arranged between two adjacent drawing moulds, and drawing mould internal diameter progressively reduces from big to small, and the single deflection of multiple drawing mould internal diameters is 2-8%, and power wheel provides drawing power for the drawing of magnesium silk;

Described coating protection treating apparatus comprises a coating water-bath 6, in this pot, load inoxidzable coating solution 7, coating water-bath inner bottom part is provided with one or more guide wheels 4 that advance for guide wire magnesium silk, described guide wheel is dipped in inoxidzable coating solution, in the time of magnesium silk process guide wheel, can make it progressively immerse inoxidzable coating solution, and can control the magnesium filament length degree in solution by the quantity of guide wheel.

In Fig. 1: the 1st, major diameter magnesium silk to be processed, the 2nd, the magnesium silk completing through multistep continuous drawing, the 3rd, the finished product magnesium silk after coating is soaked, the 4th, guide wheel, the 5th, finished product bobbins, the 6th, coating water-bath, the 7th, inoxidzable coating solution, the 8th, power wheel, the 9th, in-situ annealing device, the 10th, drawing mould.

From figure, 1 can find out, multiple drawing mould 10 spaced apart are arranged; Power wheel 8 is arranged between two drawing moulds, for magnesium silk material provides drawing power; In-situ annealing device 9 is arranged between two drawing moulds 10; Guide wheel 4, for the direction of advance of magnesium silk provides guiding, is arranged on the position that needs guiding, while processing, magnesium silk is directed in inoxidzable coating solution 7, such as needs coating generally between power wheel 8 and drawing mould 10, or between two power wheels 8.Inoxidzable coating solution 7 is contained in coating water-bath 6, directly enters inoxidzable coating solution 7 and carry out inoxidzable coating processing after the material drawing of magnesium silk and annealing in process.Magnesium silk penetrates first drawing mould (in Fig. 1 10) to carry out after drawing one segment distance, with heating inert gas it is carried out to stress relief annealing, provide drawing power through power wheel (in Fig. 1 8) for it by magnesium silk again, and then through second drawing mould, it is carried out to drawing, process successively, according to said method through the process of the drawing that repeatedly circulates, obtain ultra-fine magnesium silk.Magnesium silk is carrying out after inoxidzable coating is processed oven dry arriving finished product bobbins 5 through inoxidzable coating solution 7.

As shown in Figure 2, for in-situ annealing device schematic diagram, wherein: the 11st, inert gas air inlet, the 12nd, inert gas heating helix tube (can add a temp sensor device in pipe), the 13rd, inert gas heating region, the 14th, inert gas gas outlet (nozzle).By inert gas air inlet 11, inert gas is passed into an inert gas heating helix tube 12(helical form hollow pipe) in, be that inert gas heating region 13 heats and makes to manage interior inert gas and be heated to temperature required 80 ℃ to 280 ℃ to helix tube outside, can there be temperature sensor helix tube inside, observes at any time and adjust heating-up temperature.Inert gas after heating sprays by inert gas gas outlet 14.

Specific embodiment of the utility model is below provided, in following examples:

The magnesium silk raw material adopting is the silk material of diameter 0.5-2.0mm; The serial drawing mould outside dimension adopting is 10-50mm, and mould internal diameter diameter is 0.05-2.0mm, is a mould at interval of 0.01mm.

Embodiment 1

As shown in Figure 1-2; be 20m by length; diameter is the pure magnesium magnesium silk (content of magnesium is more than 99.99%) of 1.5mm; the equipment providing by the utility model carries out drawing processing; single pass modification amount is controlled at 2%-8%; use helium is inert protective gas, and protection gas is heated to 180 ℃～200 ℃ magnesium silk material after drawing deformation is carried out to Low-temperature stress-relief annealing.

In the present embodiment: the magnesium silk that is 1.5mm by diameter is 40mm through first drawing mould external diameter, internal diameter is that the mould of 1.47mm carries out drawing, magnesium silk after drawing is through 190 ℃ of inert gas process annealings of in-situ annealing device, provide drawing power through power wheel again, repeated multiple times by drawing mould drawing and in-situ annealing device process annealing, being machined to required format diameter is the magnesium silk of 0.15mm, its magnesium filament length degree increases to 2000m, finally enter coating water-bath by guide wheel, take Ca-P coating solution as anticorrosion inoxidzable coating solution, magnesium silk is carried out to coating processing, deposit the 0.15mm magnesium silk of after 100 days, it being prepared and carry out tensile strength test, recording its tensile strength is 225MPa, percentage elongation is 10%, the rupture time soaking in 37 ℃ of simulated body fluids is 25 days.

The equipment providing by the utility model, the finished product magnesium silk that is machined to diameter 0.15mm length 2000m from the pure magnesium silk in thin footpath of diameter 1.5mm adds up to 2 hours consuming time; As processed by prior art processing mode and equipment, the complete magnesium silk that it is 2000m that one may obtain a length hardly, it two is machined to finished product and estimates to need 4 day consuming time time (after each drawing, to need to reinstall after putting in place and carry out drawing again, after being drawn to certain deflection, need silk material to be coiled into circle, carry out stress relief annealing, after annealing, need to be untied and carry out drawing again, repetitious operation reduces its working (machining) efficiency greatly).

Embodiment 2

Be 50m by length; diameter is the pure magnesium magnesium silk of 1.0mm, and the equipment providing by the utility model carries out drawing processing, and single pass modification amount is controlled at 1%-2%; use argon gas is inert protective gas, and by protection gas be heated to 160 °～180 ° to after drawing deformation silk a material carry out process annealing.

In the present embodiment: the magnesium silk that is 1.0mm by diameter is that 30mm internal diameter is that the mould of 0.99mm carries out drawing through first drawing mould external diameter, magnesium silk after drawing is through 170 ℃ of argon gas process annealings of in-situ annealing device, provide drawing power through power wheel again, repeated multiple times by drawing mould drawing and in-situ annealing device process annealing, be machined to required specification 0.06mm, length is 13800m, finally enter coating water-bath by guide wheel, take degradable macromolecule coating solution as anticorrosion inoxidzable coating solution, magnesium silk is carried out to coating processing, deposit the 0.10mm magnesium silk of after 200 days, it being prepared and carry out tensile strength test, recording its tensile strength is 205MPa, percentage elongation is 8%, the rupture time soaking in 37 ℃ of simulated body fluids is 10 days.

The equipment providing by the utility model, the finished product magnesium silk that is machined to diameter 0.06mm length 13800m from the pure magnesium silk in thin footpath of diameter 1.0mm adds up to 5 hours consuming time; As processed by prior art processing mode and equipment, the complete magnesium silk that it is 13800m that one may obtain a length hardly, its two be machined to finished product estimate need 7 day consuming time time.

Embodiment 3

Be 30m by length; diameter is the pure magnesium magnesium silk of 2.0mm; the equipment providing by the utility model carries out drawing processing; single pass modification amount is controlled at 3%-4%; use Krypton is inert protective gas; and protection gas is heated to 220 °～250 ° a silk material after drawing deformation is carried out to process annealing, through repeatedly drawing and process annealing.

In the present embodiment: the magnesium silk that is 2.0mm by diameter is that 50mm internal diameter is that the mould of 1.96mm carries out drawing through first drawing mould external diameter, magnesium silk after drawing is through 230 ℃ of Krypton gas low temperature annealing of in-situ annealing device, provide drawing power through power wheel again, repeated multiple times by drawing mould drawing and in-situ annealing device process annealing, be machined to required specification 0.1mm, length is 12000m, finally enter coating water-bath by guide wheel, take Ca-P coating solution as anticorrosion inoxidzable coating solution, magnesium silk is carried out to coating processing, deposit the 0.1mm magnesium silk of after 250 days, it being prepared and carry out tensile strength test, recording its tensile strength is 210MPa, percentage elongation is 9%, the rupture time soaking in 37 ℃ of simulated body fluids is 15 days.

The equipment providing by the utility model, the finished product magnesium silk that is machined to diameter 0.1mm length 12000m from the pure magnesium silk in thin footpath of diameter 2.0mm adds up to 4 hours consuming time; As processed by prior art processing mode and equipment, the complete magnesium silk that it is 12000m that one may obtain a length hardly, its two be machined to finished product estimate need 7 day consuming time time.

Embodiment 4

Be 50m by length; diameter is the pure magnesium magnesium silk of 2.0mm; the equipment providing by the utility model carries out drawing processing; single pass modification amount is controlled at 2%-3%; use xenon is inert protective gas; and protection gas is heated to 200 °～220 ° a silk material after drawing deformation is carried out to process annealing, through repeatedly drawing and process annealing.

In the present embodiment: the magnesium silk that is 2.0mm by diameter is that 45mm internal diameter is that the mould of 1.96mm carries out drawing through first drawing mould external diameter, magnesium silk after drawing is through 210 ℃ of xenon gas low temperature annealing of in-situ annealing device, provide drawing power through power wheel again, repeated multiple times by drawing mould drawing and in-situ annealing device process annealing, be machined to required specification 0.05mm, length is 80000m, finally enter coating water-bath by guide wheel, take degradable macromolecule coating solution as anticorrosion inoxidzable coating solution, magnesium silk is carried out to coating processing, deposit the 0.05mm magnesium silk of after 160 days, it being prepared and carry out tensile strength test, recording its tensile strength is 195MPa, percentage elongation is 7.5%, the rupture time soaking in 37 ℃ of simulated body fluids is 8 days.

The equipment providing by the utility model, the finished product magnesium silk that is machined to diameter 0.05mm length 80000m from the pure magnesium silk in thin footpath of diameter 2.0mm adds up to 10 hours consuming time; As processed by prior art processing mode and equipment, the complete magnesium silk that it is 80000m that one may obtain a length hardly, its two be machined to finished product estimate need the 15-20 consuming time days time.

The equipment of the utility model from larger diameter magnesium silk straight forming to required ultrafine diameter specification, adopt the inert gas in-situ annealing device of heating simultaneously, not only reach elimination work hardening but also guarantee the problem of oxidation that prevents in process, finally be machined to after required specification at silk material, adopt coating protection treating apparatus to carry out inoxidzable coating processing to it, further guaranteed the Preservation of finished product magnesium silk.

Above specific embodiment of the utility model is described.It will be appreciated that, the utility model is not limited to above-mentioned specific implementations, and those skilled in the art can make various distortion or modification within the scope of the claims, and this does not affect flesh and blood of the present utility model.

Claims (9)

1. ultra-fine magnesium silk manufacturing equipment in batches, it is characterized in that described equipment comprises: reducing draw-off gear, in-situ annealing device and coating protection treating apparatus continuously, one end of described continuous reducing draw-off gear is the entrance of major diameter magnesium silk to be processed, and major diameter magnesium silk is machined to ultra-fine magnesium silk through continuous reducing draw-off gear; The other end of described continuous reducing draw-off gear is provided with the in-situ annealing device that magnesium silk is carried out to original position winding-up with the inert gas of heating, and the other end of described in-situ annealing device arranges the coating protection treating apparatus that ultra-fine magnesium silk is carried out to inoxidzable coating processing.

2. ultra-fine magnesium silk according to claim 1 manufacturing equipment in batches, it is characterized in that: described continuous reducing draw-off gear, by organizing drawing mould and power wheel forms more, power wheel is arranged between two adjacent drawing moulds, drawing mould internal diameter progressively reduces from big to small, the single deflection of multiple drawing mould internal diameters is 2-8%, and power wheel provides drawing power for the drawing of magnesium silk; Major diameter magnesium silk by power wheel provide drawing power through many group drawing moulds progressively drawing be machined to ultra-fine magnesium silk.

3. ultra-fine magnesium silk according to claim 2 manufacturing equipment in batches, it is characterized in that: described in-situ annealing device is made up of the inert gas air inlet connecting successively, inert gas heater, inert gas gas outlet, wherein: inert gas enters inert gas heater by inert gas air inlet, the inert gas after heating is jetted to magnesium silk by inert gas gas outlet original position.

4. ultra-fine magnesium silk according to claim 3 manufacturing equipment in batches, is characterized in that described in-situ annealing Plant arrangement is between two drawing moulds.

5. ultra-fine magnesium silk according to claim 3 manufacturing equipment in batches, it is characterized in that described inert gas heater comprises a helical form hollow pipe, one end of this pipe connects inert gas air inlet, and the other end connects inert gas gas outlet, and described helical form hollow pipe outside is heating region.

6. ultra-fine magnesium silk according to claim 5 manufacturing equipment in batches, is characterized in that there is temperature sensor described helical form hollow pipe inside, observes and adjust heating-up temperature at any time.

7. ultra-fine magnesium silk according to claim 1 manufacturing equipment in batches, it is characterized in that described coating protection treating apparatus comprises a coating water-bath, in this pot, load inoxidzable coating solution, coating water-bath inner bottom part is provided with one or more guide wheels that advance for guide wire magnesium silk, described guide wheel is dipped in inoxidzable coating solution, in the time of magnesium silk process guide wheel, can make it progressively immerse inoxidzable coating solution, and can control the magnesium filament length degree in solution by the quantity of guide wheel.

8. according to the manufacturing equipment in batches of the ultra-fine magnesium silk described in claim 1-7 any one, it is characterized in that described equipment further comprises finished product bobbins, this finished product bobbins be arranged on described coating protection treating apparatus after.

9. according to the manufacturing equipment in batches of the ultra-fine magnesium silk described in claim 1-7 any one, it is characterized in that described magnesium silk is the pure magnesium of high-purity, content of magnesium is more than 99.99%; Described ultra-fine magnesium silk refers to that diameter is the magnesium silk of 0.05-0.5mm.

Images