CN104759630B - The preparation method of multicellular metal foil - Google Patents

Abstract

The invention discloses the preparation method of multicellular metal foil, the multicellular metal foil is the thin slice being made up of metal polyporous material, and its step includes：(1) the raw material powder for constituting its metal polyporous material is configured to thick suspension with dispersant and binding agent；(2) suspension is injected and is film-made in the shaping mold cavity of frock and is allowed to dry the diaphragm for forming a homogeneous；(3) compacting is carried out to diaphragm and improves Powder Particles Packing consistency in diaphragm；(4) multicellular metal foil is obtained after compacting rear film is sintered.Because pressing step improves Powder Particles Packing consistency in diaphragm, the average pore size of flexible, porous metal foil can be made smaller and evenly；The mean pore size of flexible, porous metal foil can be controlled by the selection to pressing pressure.

Description

The preparation method of multicellular metal foil

It is " flexible many that applicant of the present invention have submitted Application No. 2014106089803, title on October 31st, 2014 The application for a patent for invention of mesoporous metal paper tinsel and preparation method thereof ".The flexible, porous metal foil provided in the specification of the earlier application And preparation method thereof may have technical association with the application.Because the earlier application is not yet public in the applying date of the application Open, therefore the contents being related in the earlier application in the description below of this specification, so that the public is reading present specification. more When can more fully, have a clear understanding of this flexible, porous metal foil and its technology of preparing.

Technical field

The present invention relates to sintering diamond bit and its preparation, and in particular to flexible, porous metal foil and flexible, porous gold Belong to the preparation method of paper tinsel.

Background technology

Sintering diamond bit is mainly used as filtering material.In a particular application, need to be by sintering diamond bit The filter element of definite shape and construction is made, then filter element is installed in filter.Existing sintering metal is more Porous materials filter element is substantially all as rigid cast or plate profile structure.Their preparation principle is similar, i.e., substantially：First The pressed compact that the raw material powder for constituting the metal polyporous material is pressed into cast or template by special mould is (general to use Equal pressing forming technology), then pressed compact is sintered again, product is obtained after sintering.

The sintering diamond bit filter element of above-mentioned cast or template is due to by its shape, constructing and subsidiary The influence to filter and the corresponding requirements of system, it is limited using scope.Due to sintering diamond bit filter element Current filter element (example is compared in terms of repellence, material irreversible membrane fouling repellence, mechanical strength in chemical erosion Such as organic filter membrane) there is stronger advantage, therefore, develop and be capable of the original filter element of corresponding substitute in multiple fields Novel sintered metal polyporous material filter element is highly significant.

On above-mentioned background elementary, applicant's initiative proposes a kind of flexible, porous metal foil of exploitation.That is, by metal porous Material constitutes comparable free bending or even foldable thin slice.

Paper " progress of Ti-Al intermetallic compound porous materials, river Yao etc., Chinese material progress, volume 29, Section describes a kind of preparation technology of Ti-Al intermetallic compounds paper mold film in the 2.3rd of 3rd phase, in March, 2010 ".Due to upper State paper mold film to be made up of Ti-Al intermetallic compounds, therefore be still a kind of rigid material.

The content of the invention

The present invention first has to provide the preparation method of several flexible, porous metal foils and flexible, porous metal foil；The present invention The preparation method of its secondary several multicellular metal foil of offer (flexible and rigidity)；The present invention is also provided available for above-mentioned side The film frock of method.

The present invention the first flexible, porous metal foil to be provided, is by the gold of solid solution alloy, face-centred cubic structure The thin slice that category simple substance or the metal simple-substance of body-centered cubic structure are made up of the metal polyporous material of matrix phase, the thickness of the thin slice It is 0.05~100 μm for 5~200 μm, average pore size, porosity is 15~70%, and is formed by the diaphragm sintering of a homogeneous. Specifically, the flexible, porous metal foil is by the metal list of solid solution alloy, face-centred cubic structure on material composition first The metal simple-substance of matter or body-centered cubic structure is constituted for the metal of matrix phase, so as to ensure the flexibility of the flexible, porous metal foil. Secondly, the metal material for constituting the flexible, porous metal foil should be porous material, and its Pore Characterization is that average pore size is 0.05~100 μm, porosity is 15~70%, and so, flexible, porous metal foil, which can be met, is widely separated by filtration requirement.Separately Outside, the thickness of flexible, porous metal foil (thin slice) is 5~200 μm, generally 10~60 μm.Importantly, the flexible, porous Metal foil is formed by the diaphragm sintering of a homogeneous.So-called " homogeneous " represents that the composition of diaphragm is generally uniform, i.e. substantially area Not in referred in background technology " progress of Ti-Al intermetallic compound porous materials " have passed through after aluminum coated steel, Aluminium foil before reaction synthesis.Aluminium foil after aluminum coated steel, before reaction synthesis can be regarded as a kind of thin slice of asymmetric form.And The implication of " asymmetric " is general in sintering diamond bit field." homogeneous " in the present invention is relative to " non-right Claim " propose to distinguish concept.Because the flexible, porous metal foil of the present invention is formed by the diaphragm sintering of a homogeneous, therefore the paper tinsel The pore-size distribution of piece evenly, paillon foil flatness etc. more preferably.

The thin slice can be made up of unlimited solid solution alloy the metal polyporous material of matrix phase.For example, described thin Piece is by the metal polyporous material institute of Ag-Au solid solution, Ti-Zr solid solution, Mg-Cd solid solution or Fe-Cr solid solution for matrix phase Constitute.In another example, the thin slice is preferably made up of Ni-Cu solid solution metal polyporous materials, at this moment can require the porous material Numerous holes in have more than 75% aperture difference in the range of less than 70 μm.In addition, Ni-Cu solid solution metal polyporous materials exist It is all more satisfactory in terms of flexible (can repeatedly folding) and chemical stability, and in the permeability of porous material in sintering formation Also it is very excellent, therefore application is relatively extensive.

The thin slice can also be made up of limit solid solution alloy the metal polyporous material of matrix phase.For example, described Thin slice is made up of Cu-Al solid solution, Cu-Zn solid solution, Fe-C-Cr solid solution the metal polyporous material of matrix phase.It is described Thin slice can also be made up of Al, Ni, Cu or Pb of face-centred cubic structure the metal polyporous material of matrix phase.The thin slice is also It can be made up of Cr, W, V or Mo of body-centered cubic structure the metal polyporous material of matrix phase.

The above-mentioned flexible, porous metal foil of the present invention has wide application space, for example：Industrially, available for weaving With the waste heat recovery in leather industry, medicament recovery, contamination control, purification, concentration in food-processing industry, sterilization, by-product Product are reclaimed, medicine and the artificial tracheae in healthcare industry, control release, blood filtration, Water warfare, the filtering in auto industry Device；On civilian can as mouth mask dust-filtering material and the curtain material of static electrification dedusting function.

A kind of the step of preparation method of the above-mentioned flexible, porous metal foil of the present invention, includes：(1) its will be constituted metal porous The raw material powder of material is configured to thick suspension with dispersant and binding agent；(2) by suspension injection film frock Shaping mold cavity in and be allowed to drying formed a homogeneous diaphragm；(3) diaphragm is loaded to the burning being coincide with the diaphragm profile Then enter in knot frock and taken out after row constraint sintering, sintering out of sintering frock and obtain flexible, porous metal foil.

In the above method, such as flexible, porous metal foil is made up of the metal polyporous material of Ni-Cu solid solution, in order to prepare height The Ni-Cu flexible, porous metal foils of performance, then, in step (1), be first uniformly mixed to form raw material powder by Ni powder and Cu powder, wherein Cu silty amount is the 30~60% of raw material silty amount, then using ethanol as dispersant, using PVB as binding agent, by PVB and ethanol Mass ratio is (0.5~5):PVB is added in ethanol and PVB solution is made by 100 ratio, is hereafter pressed and is added per in 100ml ethanol again The ratio for entering 20~50g of raw material powder adds raw material powder in PVB solution, makes raw material powder fully dispersed uniform by stirring, obtains Thick suspension；In step (3), sintering process include by sintering temperature be gradually increased to 520~580 DEG C and be incubated 60~ 180min the first sintering stage and in the first stage after be directly warming up to 1130~1180 with >=5 DEG C/min heating rate DEG C and be incubated 120~300min the second sintering stage.

Available for the film frock of the above method, including：Fixed part, the fixed part includes being used to be molded diaphragm edge It is framed；Adjustment portion, the adjustment portion include with the framed template coordinated for being molded diaphragm bottom surface, the template, which is connected with, to be made The adjusting means that the template is moved on framed depth direction；Movable part, the movable part include positioned at framed top surface and The scraper that cutting edge is flushed with the holding of framed top surface in the course of the work.The film frock can more accurately control the thickness of diaphragm Degree, and ensure the uniformity of diaphragm thickness and the flatness of membrane surface.

As a kind of embodiment of the adjusting means, adjusting means include with it is framed be relatively fixed and respectively with The height adjustment mechanism that template bottom surface corner connects and worked independently.So the corner of template highly can be adjusted respectively, Ensure the overall depth of parallelism with framed top surface of template, the thickness of diaphragm is uniform higher.

In addition, also further provided with volatilizable at 580 DEG C in the forming surface of the framed forming surface and template Lubricant coating.Wherein, lubricant coating can specifically use vaseline coating.In this way, it is possible to ensure that the diaphragm of shaping is suitable Profit is taken out from film frock, prevents sticking to mould, simultaneously because the volatile of lubricant coating, to the flexible, porous subsequently prepared The composition of metal foil is not impacted, and is conducive to improving the porosity of flexible, porous metal foil on the contrary.

For ease of shaping diaphragm smoothly from film frock on take out, can also framed forming surface and template into PE plastic sheetings or PET film are laid on type face.Laid in forming surface after PE plastic sheetings or PET film again to Suspension is added in shaping mold cavity, drying is formed after diaphragm, the diaphragm will not be bonded with film frock generation, is stripped very square Just.

Diaphragm available for the above method sinters frock, including the upper die and lower die and side mould being made up of exotic material, The upper die and lower die coordinate to form the die cavity for matching with internal diaphragm respectively with side mould；The die cavity connection There is the exhaust structure for distributing sintering volatile matter, the exhaust structure is in the reserved cooperation of the matching part of upper mould and side mould Gap and/or the reserved fit clearance of lower mould and matching part in mould and/or upper die and lower die and while mould In at least one on set stomata.It can enter row constraint to diaphragm by the sintering frock to sinter, prevent the burning of diaphragm Deformed in knot.

As upper die and lower die and a kind of preferred concrete structure of side mould, the side mould is a mask, upper die and lower die It is provided with respectively clamping plate, the mask and described die cavity is formed between at least triple laminate, two laminated planks of arbitrary neighborhood. This makes it possible to realize that multiple diaphragms sinter simultaneously, production efficiency is both improved, while can also ensure to sinter uniformity.

In addition, the surface for being used to be in contact with diaphragm on the upper die and lower die and side mould is also further provided with oxidation Aluminized coating.The element that aluminum oxide can be obstructed in high-temperature sintering process between sintering frock own material and diaphragm material is mutual Diffusion.

At least one in the upper die and lower die and side mould can be made up of graphite.Graphite has good resistance to elevated temperatures, and Because graphite surface is smooth, it can also be easy to the demoulding of product after sintering.

Second provided by the present invention of flexible, porous metal foil, is the metal porous material by solid solution alloy for matrix phase The constituted thin slice of material, the thickness of the thin slice is 5~200 μm, average pore size is 0.05~100 μm, and porosity is 15~70%. Specifically, the flexible, porous metal foil is to be made up of solid solution alloy for the metal of matrix phase on material composition, so as to protect Demonstrate,prove the flexibility of the flexible, porous metal foil.Secondly, the metal material for constituting the flexible, porous metal foil is porous material, its hole knot It is 0.05~100 μm that structure, which is characterized as average pore size, and porosity is 15~70%, and so, flexible, porous metal foil can be met extensively Be separated by filtration requirement.In addition, the thickness of flexible, porous metal foil (thin slice) is 5~200 μm, generally 10~60 μm.

The thin slice can be made up of unlimited solid solution alloy the metal polyporous material of matrix phase.For example, described thin Piece is by the metal polyporous material institute of Ag-Au solid solution, Ti-Zr solid solution, Mg-Cd solid solution or Fe-Cr solid solution for matrix phase Constitute.In another example, the thin slice is preferably made up of Ni-Cu solid solution metal polyporous materials, the metal porous material of Ni-Cu solid solution Material is all more satisfactory in terms of flexible (can repeatedly folding) and chemical stability, therefore application is relatively extensive.

The thin slice can also be made up of limit solid solution alloy the metal polyporous material of matrix phase.For example, described Thin slice is made up of Cu-Al solid solution, Cu-Zn solid solution, Fe-C-Cr solid solution the metal polyporous material of matrix phase.

The waste heat that above-mentioned second of flexible, porous metal foil of the present invention industrially can be used in weaving and leather industry Reclaim, medicament is reclaimed, contamination control, the purification, concentration, sterilization, byproduct in food-processing industry are reclaimed, medicine and health care row Cleaner in artificial tracheae, control release, blood filtration, Water warfare in industry, auto industry；Mouth mask can be used as on civilian Dust-filtering material and static electrification dedusting function curtain material.

A kind of preparation method step of second of flexible, porous metal foil of the invention includes：(1) carrier is prepared, carrier is by structure The paillon foil constituted into a certain element or several elements in the metal polyporous material of flexible, porous metal foil；(2) gold will be constituted The raw material powder that remaining element of genus polyporus material is made is configured to thick suspension with dispersant and binding agent；(3) by institute Suspension is stated to be attached to carrier surface and be allowed to the diaphragm that drying formation is attached on carrier surface；(4) load of diaphragm will be adhered to Body, which loads in the sintering frock being coincide with its profile and then entered, to be taken out out of sintering frock after row constraint sintering, sintering and obtains soft Property multicellular metal foil.

Available for the film frock of the preparation method of above-mentioned second of flexible, porous metal foil, it includes：Fixed part, it is described Fixed part includes being used to be molded the framed of diaphragm edge；Adjustment portion, the adjustment portion includes coordinating for placing carrier with framed Template, the template is connected with the adjusting means that the template can be made to be moved on framed depth direction；Movable part, the work Dynamic portion includes the scraper that positioned at framed top surface and cutting edge is flushed with the holding of framed top surface in the course of the work.The film frock energy It is enough more accurately to control the thickness of diaphragm, and ensure the uniformity of diaphragm thickness and the flatness of membrane surface.

As a kind of embodiment of the adjusting means, adjusting means include with it is framed be relatively fixed and respectively with The height adjustment mechanism that template bottom surface corner connects and worked independently.So the corner of template highly can be adjusted respectively, Ensure the overall depth of parallelism with framed top surface of template, the thickness of diaphragm is uniform higher.

Equally, smoothly taken out for ease of the diaphragm of shaping from film frock, can be in framed forming surface and template Forming surface on lay PE plastic sheetings or PET film.Laid in forming surface after PE plastic sheetings or PET film Suspension is added into shaping mold cavity again, drying is formed after diaphragm, the diaphragm will not be bonded with film frock generation, and the demoulding is very It is convenient.

Available for the sintering frock of the preparation method of above-mentioned second of flexible, porous metal foil, including by exotic material system Into upper die and lower die and side mould, the upper die and lower die coordinate to form carrier phase for adhering to diaphragm respectively with side mould Identical die cavity；The die cavity be connected with for distribute sintering volatile matter exhaust structure, the exhaust structure be upper mould with While the reserved fit clearance of the matching part of mould and/or lower mould with while mould the reserved fit clearance of matching part with And/or person's stomata set at least one in upper die and lower die and side mould.Can be to attachment by the sintering frock The carrier of diaphragm enters row constraint sintering, prevents it from being deformed in sintering.

As upper die and lower die and a kind of preferred concrete structure of side mould, the side mould is a mask, upper die and lower die It is provided with respectively clamping plate, the mask and described die cavity is formed between at least triple laminate, two laminated planks of arbitrary neighborhood. This makes it possible to be sintered while realizing multiple attachment film carriers, production efficiency is both improved, while can also ensure that sintering is consistent Property.

In addition, the surface for being used to be in contact with diaphragm on upper die and lower die and side mould is also further provided with being applied with aluminum oxide Layer.Aluminum oxide can obstruct sintering frock own material and the element phase between carrier and diaphragm material in high-temperature sintering process Counterdiffusion.

At least one in the upper die and lower die and side mould is made up of graphite.Graphite has a good resistance to elevated temperatures, and by It is smooth in graphite surface, it can also be easy to the demoulding of product after sintering.

It may be noted that film frock and agglomerant used in the preparation method of above-mentioned second of flexible, porous metal foil Dress with can be with film frock used in the preparation method of the first above-mentioned flexible, porous metal foil and sintering tool structure It is identical.Difference is, need to place carrier when the film frock of second method is used in template, and first method Film frock does not place carrier when using in template；Attachment diaphragm is placed in its die cavity of the sintering frock of second method Carrier (being unsymmetric structure), and the diaphragm of homogeneous is placed in the sintering frock of first method its die cavity.

The present invention the third flexible, porous metal foil, be by solid solution alloy, the metal simple-substance of face-centred cubic structure or The thin slice that the metal simple-substance of body-centered cubic structure is made up of the metal polyporous material of matrix phase, 200 μm of the thickness G T.GT.GT of the thin slice And≤1500 μm, average pore size be 0.05~100 μm, porosity be 15~70%.The third flexible, porous metal foil can be used The preparation method of the first above-mentioned flexible, porous metal foil (is formed) by the diaphragm sintering of a homogeneous preparing.When the third When flexible, porous metal foil is the thin slice being made up of solid solution alloy the metal polyporous material of matrix phase, the third flexibility Multicellular metal foil can also be prepared with the preparation method of above-mentioned second of flexible, porous metal foil.

The thin slice for constituting the third flexible, porous metal foil can be by metal of the unlimited solid solution alloy for matrix phase Porous material is constituted.For example, the thin slice is by Ag-Au solid solution, Ti-Zr solid solution, Mg-Cd solid solution or Fe-Cr solid solutions Body is made up of the metal polyporous material of matrix phase.In another example, the thin slice is preferably by Ni-Cu solid solution metal polyporous material institute Constitute, have more than 75% aperture difference in the range of less than 70 μm in the numerous holes that at this moment can require the porous material.In addition, Ni-Cu solid solution metal polyporous material is all more satisfactory in terms of flexible (can repeatedly folding) and chemical stability, and in burning Tie also very excellent in the permeability of the porous material formed, therefore application is relatively extensive.

The thin slice for constituting the third flexible, porous metal foil can also be more for the metal of matrix phase by limit solid solution alloy Porous materials are constituted.For example, the thin slice is by Cu-Al solid solution, Cu-Zn solid solution, the gold that Fe-C-Cr solid solution is matrix phase Genus polyporus material is constituted.The thin slice can also be by metal porous materials of Al, Ni, Cu or the Pb of face-centred cubic structure for matrix phase Material is constituted.The thin slice can also be by metal polyporous material institute structures of Cr, W, V or the Mo of body-centered cubic structure for matrix phase Into.

Compared to the first above-mentioned flexible, porous metal foil and second of flexible, porous metal foil, the third flexible, porous gold The thickness for belonging to paper tinsel is thicker, therefore, the intensity of the third flexible, porous metal foil can higher than the first flexible, porous metal foil and The intensity of second of flexible, porous metal foil, thus it is upper in application, and the third flexible, porous metal foil is more suitable for higher to its intensity Occasion.One typical example application is the filter bag that the third flexible, porous metal foil is fabricated to filtering.Filter bag is universal Bag applied to filter bag type deduster, but existing filter bag is made into by organic fiber more, therefore also referred to as " cloth bag ", it exists anti- The shortcomings of high-temperature behavior is poor, filtering accuracy is not high.The present invention will provide a kind of filter bag of filtering, and it includes bag, the bag Body is made up of the third above-mentioned flexible, porous metal foil, the third flexible, porous metal foil intensity higher because having and in filter bag Be difficult to damage faster because of factors such as frequent blowbacks using process, simultaneously because its material property thus with good high temperature resistance Performance.

In addition to the preparation method of the flexible, porous metal foil of above-mentioned offer, present invention also offers following several improved The preparation method of multicellular metal foil, can be not only used for preparing above-mentioned flexible, porous metal foil, it can also be used to prepare other porous Metal foil.A kind of preparation method for improving multicellular metal foil, the multicellular metal foil is the thin slice being made up of metal polyporous material, Its step includes：(1) the raw material powder for constituting its metal polyporous material is configured to dispersant and binding agent thick suspended Liquid；(2) suspension is injected and is film-made in the shaping mold cavity of frock and is allowed to dry the diaphragm for forming a homogeneous；(3) to film Piece carries out compacting and improves Powder Particles Packing consistency in diaphragm；(4) porous metals are obtained after compacting rear film is sintered Paper tinsel.This method can be used for preparing the first above-mentioned flexible, porous metal foil, second of flexible, porous metal foil and the third Flexible, porous metal foil.Because the compacting (can be using the compacting such as roll mill, moulding press, isostatic pressing machine) of its step (3) improves film Powder Particles Packing consistency in piece, can make the average pore size of flexible, porous metal foil smaller and evenly；By pressing compacting The selection of power can control the mean pore size of flexible, porous metal foil.

The preparation method of another improved multicellular metal foil, the multicellular metal foil is made up of metal polyporous material Thin slice, its step includes：(1) the raw material powder for constituting its metal polyporous material with dispersant and binding agent is configured to pureed cream Body；(2) diaphragm that compacting forms homogeneous is carried out to lotion；(3) multicellular metal foil is obtained after compacting rear film is sintered.Should Method can be used for preparing the first above-mentioned flexible, porous metal foil, second of flexible, porous metal foil and the third flexibility many Mesoporous metal paper tinsel.Because the compacting (can be using the compacting such as roll mill, moulding press, isostatic pressing machine) of its step (2) improves powder in diaphragm Last particle packing consistency, can make the average pore size of flexible, porous metal foil smaller and evenly；Pass through the choosing to pressing pressure The mean pore size of flexible, porous metal foil can be controlled by selecting.

The preparation method of another improved multicellular metal foil, the multicellular metal foil is made up of metal polyporous material Thin slice, its step includes：(1) carrier is prepared, the carrier is in the metal polyporous material for constituting flexible, porous metal foil The paillon foil that a certain element or several elements are constituted；(2) the raw material powder that remaining element for constituting metal polyporous material is made is used Dispersant and binding agent are configured to thick suspension；(3) suspension is attached to carrier surface and is allowed to dry shape Into the diaphragm being attached on carrier surface；(4) compacting is carried out to the carrier for adhering to diaphragm and improves Powder Particles Packing cause in diaphragm Density；(5) multicellular metal foil is obtained after being sintered to the carrier for adhering to diaphragm after compacting.This method can be used for preparing above-mentioned Second of flexible, porous metal foil and the third flexible, porous metal foil.Because the compacting of its step (4) (can be using rolling Machine, moulding press, isostatic pressing machine etc. are suppressed) Powder Particles Packing consistency in diaphragm is improved, the flat of flexible, porous metal foil can be made Equal aperture is smaller and evenly；Flexible, porous metal foil mean pore size can control by the selection to pressing pressure.

It may be noted that above-mentioned film frock and burning equally can be used in the preparation method of this above-mentioned several improved multicellular metal foil Tie frock.In addition, in the preparation method of above-mentioned several improved flexible, porous metal foils, used pressure can be with when it is suppressed For 5~300MPa, generally 10~100MPa.In general, pressure is bigger during compacting, the average pore size of multicellular metal foil is smaller And it is more uniform, the globality and intensity of multicellular metal foil are also higher, but porosity is smaller.

The present invention will be further described with reference to the accompanying drawings and detailed description.The present invention additional aspect and advantage It will be set forth in part in the description, partly will become apparent from the description below, or be understood by the practice of the present invention Arrive.

Brief description of the drawings

Fig. 1 be the specific embodiment of the invention in a kind of rectangular flexible multicellular metal foil appearance schematic diagram.

Fig. 2 is the dimensional structure diagram for the film frock for preparing the flexible, porous metal foil shown in Fig. 1.

Fig. 3 be in Fig. 2 I-I to sectional view.

Fig. 4 is the structural representation for the diaphragm sintering frock for preparing the flexible, porous metal foil shown in Fig. 1.

Fig. 5 be in Fig. 4 II-II to sectional view.

Embodiment

A kind of flexible, porous metal foil 100 as shown in Figure 1, is by the metal list of solid solution alloy, face-centred cubic structure The thin slice that the metal simple-substance of matter or body-centered cubic structure is made up of the metal polyporous material of matrix phase, the thickness H of the thin slice is 5 ~1500 μm, average pore size be 0.05~100 μm, porosity be 15~70%.Wherein, the shape of thin slice can be shown in Fig. 1 Rectangle or other flat shapes such as circle, ellipse.

A kind of the step of preparation method (method 1) of above-mentioned flexible, porous metal foil 100, includes：(1) its metal will be constituted The raw material powder of porous material is configured to thick suspension with dispersant and binding agent；(2) suspension is injected and be film-made The shaping mold cavity of frock is interior and is allowed to the diaphragm that drying forms a homogeneous；(3) diaphragm is loaded and coincide with the diaphragm profile Sintering frock in then enter row constraint sintering, taken out out of sintering frock after sintering and obtain flexible, porous metal foil 100.

In the above method, dispersant can use the surface tension such as ethanol, MEK, toluene small and volatilize what is easily dried soon Organic solvent；Binding agent can use PVB, PVA, PVC, polyvinyl alcohol, polyethylene glycol (low molecule wax class), paraffin, aliphatic acid Class, aliphatic amide type and esters etc..

In the above method, the ratio between raw material powder and dispersant can ensure after drying according to the specific composition of raw material powder The surface quality of diaphragm is principle to determine.If in general, the too high levels of raw material powder, dry the surface quality of rear film Bad, the phenomenon such as easily occur being cracked；If the content of raw material powder is too low, it can increase follow-up by suspension injection film work The number of times of shaping mold cavity is filled, extends the manufacturing cycle of flexible, porous metal foil.

In the above method, the ratio between binding agent and dispersant can ensure after drying according to the specific composition of raw material powder The surface quality and membrane ruggedness of diaphragm are principle to determine.In general, if binder content is too high, suspension mobility Difference, easily has after drying and difficulty is stripped after the defects such as shrinkage cavity, and sintering；If binder content is too low, the powder particle of raw material powder Between can not effectively be bonded, diaphragm insufficient formability, membrane ruggedness are low and take out difficult.

In the above method, constraint sintering refers to sinter on the premise of by sintering frock holding diaphragm shapes, prevents diaphragm Deformed in sintering process.Specific sintering schedule should be according to the specific composition of raw material powder and the pore structure to be reached To determine.

As the improvement to the above method, also a step can be increased in its step (2) and step (3), i.e., diaphragm be entered Row compacting improves Powder Particles Packing consistency in diaphragm, is then sintered again.Wherein specifically can be using roll mill, molding Machine, isostatic pressing machine etc. are suppressed.Compacting can improve Powder Particles Packing consistency in diaphragm, make the flexible, porous metal finally prepared The average pore size of paper tinsel is smaller and evenly；Flexible, porous metal foil average pore size can control by the selection to pressing pressure big It is small.

Film frock as shown in figures 2-3 will be used in the step 2 of the above method.Specifically, the film frock includes Fixed part 210, the fixed part 210 include be used for be molded framed the 211 of diaphragm edge, this framed 211 be arranged on one support bottom (framed 211 it can be also fixed certainly by other modes) on seat 212 with to be supported to framed 211；Adjustment portion 220, it is described Adjustment portion 220 is including coordinating the template 221 for being molded diaphragm bottom surface with framed 211, and the template 221, which is connected with, can make the mould The adjusting means 222 that plate 221 is moved on framed 211 depth direction；And movable part 230, the movable part 230 include position The scraper 231 for keeping flushing in framed 211 top surface and in the course of the work cutting edge and framed 211 top surface.When flexible, porous gold When the shape for belonging to paper tinsel 100 is the rectangle shown in Fig. 1, framed 211 inner chamber is also a rectangle, and template 221 is located at the interior intracavitary simultaneously Coordinate with rectangular inner cavity.In addition, adjusting means 222 specifically may include to be relatively fixed with framed 211 and respectively with the bottom surface of template 221 The height adjustment mechanism 222a that corner connects and worked independently (is for example located at spiral lifting below the bottom surface corner of template 221 respectively Mechanism).For ease of height adjustment mechanism 222a installation, framed 211 bottom is additionally provided with the supporting construction 211a extended internally, The height adjustment mechanism 222a is arranged on supporting construction 211a.

The application method of above-mentioned film frock is：Regulation each height adjustment mechanism 222a is first passed through to adjust template 221 On to the height of setting and with framed 211 top surface keeping parallelism, then again framed 211 forming surface and template 221 into One layer of PET film is laid on type face respectively, then the suspension obtained by step (1) is injected into by framed 211 and mould In the shaping mold cavity that plate 221 is constituted, hereafter move scraper 231 and ensure that its cutting edge is flushed with framed 211 top surface in movement, from And the suspension that will be attached to more than framed 211 top surface with scraper 231 is scraped off, then suspension is dried, it is suspended after drying Liquid is frozen into diaphragm in uniform thickness, finally removes diaphragm from film frock.Above-mentioned film frock can be accurate The thickness of diaphragm is controlled, and ensures the uniformity of diaphragm thickness and the flatness of membrane surface.

Frock will be sintered in the step 3 of the above method using diaphragm as shown in Figures 4 and 5.Specifically, the diaphragm is sintered Frock includes the upper mould 310a, lower mould 310b and the side mould 320 that are made up of graphite, the upper mould 310a, lower mould 310b respectively with Side mould 320 coordinates to form the die cavity for matching with internal diaphragm 100 '；Wherein, side mould 320 is specially a mask 321, upper mould 310a and lower mould 310b are respectively clamping plate 310, and multiply-plywood 310 is provided with the mask 321, arbitrary neighborhood Described die cavity is formed between two laminated planks 310；In addition, the matching part of each clamping plate 310 and mask 321 is also reserved with for dissipating The fit clearance of fever knot volatile matter.When the shape of flexible, porous metal foil 100 is the rectangle shown in Fig. 1, the mask 321 Sidepiece be the rectangular configuration being made up of foreboard 321a, back plate 321b, left plate 321c and right panel 321d.

The application method of above-mentioned diaphragm sintering frock is：First on the inwall of mask 321 and the two side of each clamping plate 310 One layer of aluminum oxide coating layer of setting (sticky alumina powder suspension solution can be first mixedly configured into ethanol, PVB and alumina powder, Then change aluminium powder suspension is coated on the two side of the inwall of mask 321 and each clamping plate 310 and forms aluminum oxide coating layer), Then in the bottom laying bottom clamping plate 310 of mask 321, a diaphragm 100 ' is placed in the top of clamping plate 310, then in the diaphragm The second laminated plank 310 is laid in 100 ' top, the like can lay whole clamping plates 310, and ensure in arbitrary neighborhood Two laminated planks 310 between respectively accompany one piece of diaphragm 100 ', hereafter by the diaphragm assembled sintering frock feeding sintering furnace in enter After row sintering, sintering flexible, porous metal foil 100 is taken out from diaphragm sintering frock.Therefore, above-mentioned diaphragm sintering frock is realized Multiple diaphragms 100 ' both improve production efficiency, while also can ensure to sinter uniformity while constrain sintering.

The step of another preparation method (method 2) of above-mentioned flexible, porous metal foil, includes：(1) carrier is prepared, it is described Carrier is the paillon foil being made up of a certain element or several elements in the metal polyporous material for constituting flexible, porous metal foil； (2) the raw material powder that is made of remaining element for constituting metal polyporous material is configured to dispersant and binding agent thick suspended Liquid；(3) suspension is attached to carrier surface and is allowed to the diaphragm that drying formation is attached on carrier surface；(4) will be attached The carrier for diaphragm loads in the sintering frock being coincide with its profile and then entered row constraint sintering, is taken out of sintering frock after sintering Go out and obtain flexible, porous metal foil.As the improvement to this method, equally one can be increased in its step (3) and step (4) Step, i.e., carry out compacting to the carrier for adhering to diaphragm and improve Powder Particles Packing consistency in diaphragm, be then sintered again.Its In specifically can be using the compacting such as roll mill, moulding press, isostatic pressing machine.Compacting can improve Powder Particles Packing consistency in diaphragm, Make the average pore size of flexible, porous metal foil that finally prepares smaller and evenly；It can control by the selection to pressing pressure soft Property multicellular metal foil mean pore size.

In the above method, dispersant can use the surface tension such as ethanol, MEK, toluene small and volatilize what is easily dried soon Organic solvent；Binding agent can use PVB, PVA, PVC, polyvinyl alcohol, polyethylene glycol (low molecule wax class), paraffin, aliphatic acid Class, aliphatic amide type and esters etc..

In the above method, the ratio between raw material powder and dispersant can ensure after drying according to the specific composition of raw material powder The surface quality of diaphragm is principle to determine.If in general, the too high levels of raw material powder, dry the surface quality of rear film Bad, the phenomenon such as easily occur being cracked；If the content of raw material powder is too low, it can increase follow-up by suspension injection film work The number of times of shaping mold cavity is filled, extends the manufacturing cycle of flexible, porous metal foil.

In the above method, the ratio between binding agent and dispersant can ensure after drying according to the specific composition of raw material powder The surface quality and membrane ruggedness of diaphragm are principle to determine.In general, if binder content is too high, suspension mobility Difference, easily has after drying and difficulty is stripped after the defects such as shrinkage cavity, and sintering；If binder content is too low, the powder particle of raw material powder Between can not effectively be bonded, diaphragm insufficient formability, membrane ruggedness are low and take out difficult.

In the above method, constraint sintering refers to sinter on the premise of by sintering frock holding diaphragm shapes, prevents diaphragm Deformed in sintering process.Specific sintering schedule should be according to the specific composition of raw material powder and the pore structure to be reached To determine.This method still uses " the diaphragm sintering frock in method 1 ".

Carrier surface can be attached to using modes such as sprayings in the step 3 of the above method, but suggestion using above-mentioned Fig. 2~ The suspension is attached to carrier surface by the film frock shown in 3.Specific method is：First pass through and adjust each height regulation machine Structure 222a by template 221 be adjusted to setting height on and with framed 211 top surface keeping parallelism, then put again in template 221 Carrier is put, and the suspension obtained by step (2) is injected into the shaping mold cavity between framed 211 and carrier, is hereafter moved Dynamic scraper 231 simultaneously ensures that its cutting edge is flushed with framed 211 top surface in movement, so as to will be attached to framed 211 top with scraper 231 Suspension more than face is scraped off, then suspension is dried, and suspension is frozen into diaphragm in uniform thickness after drying, finally will The carrier for adhering to diaphragm is removed from film frock.

The step of another preparation method (method 3) of above-mentioned flexible, porous metal foil, includes：(1) will to constitute its metal more The raw material powder of Porous materials is configured to pureed lotion with dispersant and binding agent；(2) diaphragm that compacting forms homogeneous is carried out to lotion； (3) flexible, porous metal foil is obtained after compacting rear film is sintered.In this method, dispersant can use ethanol, first and second The surface tension such as ketone, toluene are small and the fast easily dry organic solvent of volatilization；Binding agent can use PVB, PVA, PVC, polyethylene Alcohol, polyethylene glycol (low molecule wax class), paraffin, fatty acid, aliphatic amide type and esters etc..It is above-mentioned that " technique of method 3 " is walked Suddenly " method 1 " and " method 2 " is less, and production efficiency is high, and the quality of the flexible, porous metal foil prepared is also managed is compared very much Think.Wherein specifically can be using the compacting such as roll mill, moulding press, isostatic pressing machine.Compacting can improve Powder Particles Packing in diaphragm and cause Density, makes the average pore size of flexible, porous metal foil that finally prepares smaller and evenly；Can by the selection to pressing pressure Control flexible, porous metal foil mean pore size.This method equally uses " the diaphragm sintering frock in method 1 ".

Embodiment 1

Flexible, porous metal foil 100 is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, the sheet thickness H is 10 μm, and length is 160mm, and width is 125mm, and average pore size is 18.4 μm, and porosity is 58.37%.Flexible, porous gold Belonging to the preparation method of paper tinsel 100 is：First, Ni powder and Cu powder are uniformly mixed to form raw material powder, wherein Cu silty amount is raw material powder The 30% of quality, is 2.5 by PVB and the mass ratio of ethanol then using ethanol as dispersant, using PVB as binding agent:100 ratio PVB is added in ethanol PVB solution will be made by example, and addition raw material powder 25g ratio is by raw material powder in hereafter pressing again per 100ml ethanol Add in PVB solution, make raw material powder fully dispersed uniform by stirring, obtain thick suspension；Secondly, will be described suspended The shaping mold cavity of the film frock of liquid injection as shown in figures 2-3 is interior and is allowed to the diaphragm 100 ' that drying forms a homogeneous；Then, The diaphragm 100 ' is loaded into diaphragm as shown in Figures 4 and 5 and sinters frock, specific sintering process be first by sintering temperature gradually Rise to 550 DEG C and be incubated 90min (main function of this process is to remove binding agent, vaseline etc.), then with 6 DEG C/min's Heating rate is directly warming up to 1130 DEG C and is incubated 180min and (is rapidly heated to 1170 DEG C of fusing points more than Cu, melted using Cu Mobility after melting drives Ni powder, Ni powder is fully combined, it is ensured that flexible, porous metal foil 100 sinter after integrality and soft Property), taken out out of sintering frock after sintering and obtain flexible, porous metal foil 100.

Embodiment 2

Flexible, porous metal foil 100 is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, the sheet thickness H is 100 μm, and length is 200mm, and width is 130mm, and average pore size is 30 μm, and porosity is 61.68%.Flexible, porous gold Belonging to the preparation method of paper tinsel 100 is：First, Ni powder and Cu powder are uniformly mixed to form raw material powder, wherein Cu silty amount is raw material powder The 60% of quality, is 4 by PVB and the mass ratio of ethanol then using ethanol as dispersant, using PVB as binding agent:100 ratio PVB is added in ethanol PVB solution is made, hereafter again add raw material powder in the ratio that raw material powder 40g is added in every 100ml ethanol Enter in PVB solution, make raw material powder fully dispersed uniform by stirring, obtain thick suspension；Secondly, by the suspension The shaping mold cavity of the film frock of injection as shown in figures 2-3 is interior and is allowed to the diaphragm 100 ' that drying forms a homogeneous；Then, will The diaphragm 100 ' loads diaphragm sintering frock as shown in Figures 4 and 5, and specific sintering process is first gradually to rise sintering temperature To 550 DEG C and 90min is incubated, is then directly warming up to 1180 DEG C with 8 DEG C/min heating rate and is incubated after 180min, sintering Taken out out of sintering frock and obtain flexible, porous metal foil 100.

Embodiment 3

Flexible, porous metal foil is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, and sheet thickness H is 60 μm, length is 150mm, and width is 100mm, and average pore size is 54.1 μm, and porosity is 40.16%.The flexible, porous metal Paper tinsel preparation method is：First, it is more than 99% to purity, thickness is surface-treated for 10 μm of Cu paper tinsels (carrier)：Using matter The impurity such as the greasy dirt on NaOH solution cleaning Cu paper tinsels surface that concentration is 10% are measured, Cu paper tinsels are put into mass concentration 10% again after washing H₂SO₄Pickling two minutes in solution, remove the oxide and rust stain on Cu paper tinsels surface；The Cu paper tinsels after alkali cleaning, pickling are immersed again 8min is cleaned with ultrasonic wave in acetone soln, is finally putting into vacuum drying oven and is dried, and records Cu paper tinsel quality；Then, with Simple substance Ni powder is raw material, using ethanol as dispersant, using PVB as binding agent, is 4 by PVB and the mass ratio of ethanol:100 ratio PVB is added in ethanol PVB solution is made, hereafter add PVB solution in the ratio that Ni powder 25g is added in every 100ml ethanol again In, make Ni powder fully dispersed uniform by stirring, obtain thick suspension；Hereafter, Cu paper tinsels are close to the mould for being film-made frock The surface of plate 221, the thickness of overlay film is controlled by adjusting the height of the top surface of template 221, then by suspension injection film work In the shaping mold cavity of dress, it is ensured that control Ni and Cu mass ratioes 1：1 or so, then dried and filled the blank after drying Enter diaphragm sintering frock as shown in Figures 4 and 5, be sintered by the identical sintering process of embodiment 1.

Embodiment 4

Flexible, porous metal foil 100 is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, the sheet thickness H is 10 μm, and length is 160mm, and width is 125mm, and average pore size is 1.2 μm, and porosity is 42.5%.The flexible, porous metal The preparation method of paper tinsel 100 is：First, Ni powder and Cu powder are uniformly mixed to form raw material powder, wherein Cu silty amount is raw material silty The 30% of amount, is 2.5 by PVB and the mass ratio of ethanol then using ethanol as dispersant, using PVB as binding agent:100 ratio PVB is added in ethanol PVB solution is made, hereafter again add raw material powder in the ratio that raw material powder 25g is added in every 100ml ethanol Enter in PVB solution, make raw material powder fully dispersed uniform by stirring, obtain thick suspension；Secondly, by the suspension The shaping mold cavity of the film frock of injection as shown in figures 2-3 is interior and is allowed to the diaphragm 100 ' that drying forms a homogeneous；Then by film Piece 100 ' is put on roll mill under 10MPa to be rolled with 600r/min mill speed (roll rotational speed)；Then, it will roll Diaphragm 100 ' afterwards loads diaphragm sintering frock as shown in Figures 4 and 5, and specific sintering process is first gradually to rise sintering temperature To 550 DEG C and 90min (main function of this process is to remove binding agent, vaseline etc.) is incubated, then with 6 DEG C/min liter Warm speed is directly warming up to 1130 DEG C and is incubated 180min and (is rapidly heated to 1170 DEG C of fusing points more than Cu, melted using Cu Mobility afterwards drives Ni powder, Ni powder is fully combined, it is ensured that integrality and flexibility after the sintering of flexible, porous metal foil 100), Taken out after sintering out of sintering frock and obtain flexible, porous metal foil 100.

Embodiment 5

Flexible, porous metal foil is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, and sheet thickness H is 60 μm, length is 150mm, and width is 100mm, and average pore size is 25 μm, and porosity is 37%.It is prepared by the flexible, porous metal foil Method is：First, it is more than 99% to purity, thickness is surface-treated for 10 μm of Cu paper tinsels (carrier)：Using mass concentration For 10% impurity such as the greasy dirt on NaOH solution cleaning Cu paper tinsels surface, Cu paper tinsels are put into the H of mass concentration 10% again after washing₂SO₄ Pickling two minutes in solution, remove the oxide and rust stain on Cu paper tinsels surface；The Cu paper tinsels after alkali cleaning, pickling are immersed into acetone again molten 8min is cleaned with ultrasonic wave in liquid, is finally putting into vacuum drying oven and is dried, and records Cu paper tinsel quality；Then, with simple substance Ni Powder is raw material, using ethanol as dispersant, using PVB as binding agent, is 4 by PVB and the mass ratio of ethanol:100 ratio adds PVB Enter to be made PVB solution in ethanol, hereafter add in PVB solution, pass through in the ratio that Ni powder 25g is added in every 100ml ethanol again Stirring makes Ni powder fully dispersed uniform, obtains thick suspension；Hereafter, Cu paper tinsels are close to the table of template 221 for being film-made frock Face, the thickness of overlay film is controlled by adjusting the height of the top surface of template 221, and then the suspension is injected to the shaping for being film-made frock In die cavity, it is ensured that control Ni and Cu mass ratioes 1：1 or so, then dried and the blank after drying is put on machine Rolled under 15MPa with 300r/min mill speed (roll rotational speed), be then charged into diaphragm sintering as shown in Figures 4 and 5 Frock, is sintered by the identical sintering process of embodiment 1.

Embodiment 6

Flexible, porous metal foil 100 is the rectangular tab being made up of Ni-Cu solid solution alloy porous materials, the sheet thickness H is 500 μm, and length is 160mm, and width is 125mm, and average pore size is 15.2 μm, and porosity is 51%.The flexible, porous metal The preparation method of paper tinsel 100 is：First, Ni powder and Cu powder are uniformly mixed to form raw material powder, wherein Cu silty amount is raw material silty The 30% of amount, then using ethanol as dispersant, using PVB as binding agent, by every 100ml ethanol solutions 30gPVB, 500g raw material powder Proportional arrangement into pureed lotion；Secondly, lotion is put on roll mill and (rolled with 200r/min mill speed under 25MPa Roller rotating speed) rolled；Then, the diaphragm that the diaphragm 100 ' after rolling loads as shown in Figures 4 and 5 is sintered into frock, specifically Sintering process is that sintering temperature first is gradually increased into 550 DEG C and 90min is incubated, and is then directly risen with 6 DEG C/min heating rate Temperature to 1130 DEG C and be incubated 180min (be rapidly heated to 1170 DEG C exceed Cu fusing point, the mobility band after being melted using Cu Dynamic Ni powder, makes Ni powder fully combine, it is ensured that flexible, porous metal foil 100 sinter after integrality and flexibility), from sintering after sintering Taken out in frock and obtain flexible, porous metal foil 100.

Embodiment 7

Sheet thickness increase is that H is 300 μm on the basis of embodiment 1 by embodiment 7.

Embodiment 8

Sheet thickness increase is that H is 500 μm on the basis of embodiment 4 by embodiment 8.

Embodiment 9

Sheet thickness increase is that H is 800 μm on the basis of embodiment 5 by embodiment 9.

The flexible, porous metal foil performance comparison result of embodiment 1~9 is as shown in table 1.

Table 1：Flexible, porous metal foil performance comparison result

Claims (10)

1. the preparation method of multicellular metal foil, the multicellular metal foil is the thin slice being made up of metal polyporous material, its step bag Include：(1) the raw material powder for constituting its metal polyporous material is configured to thick suspension with dispersant and binding agent；(2) will The shaping mold cavity of the suspension injection film frock is interior and is allowed to dry the diaphragm for forming a homogeneous；(3) diaphragm is pressed System improves Powder Particles Packing consistency in diaphragm；(4) flexible, porous metal foil is obtained after compacting rear film is sintered；

The film frock includes：Fixed part, the fixed part includes being used to be molded the framed of diaphragm edge；Adjustment portion, it is described Adjustment portion include with the framed template coordinated for being molded diaphragm bottom surface, the template, which is connected with, can make the template in framed depth The adjusting means that degree side is moved up；Movable part, the movable part includes being located at framed top surface and in the course of the work cutting edge The scraper flushed with the holding of framed top surface.

2. the preparation method of multicellular metal foil, the multicellular metal foil is the thin slice being made up of metal polyporous material, its step bag Include：(1) the raw material powder for constituting its metal polyporous material with dispersant and binding agent is configured to pureed lotion；(2) lotion is entered Row compacting forms the diaphragm of homogeneous；(3) flexible, porous metal foil is obtained after compacting rear film is sintered；

For the sintering frock of the diaphragm, including the upper die and lower die and side mould being made up of exotic material, the upper mould, Lower mould coordinates to form the die cavity for matching with internal diaphragm respectively with side mould；The die cavity is connected with for distributing Sinter the exhaust structure of volatile matter, the exhaust structure be the reserved fit clearance of the matching part of upper mould and side mould and/ Or lower mould with while the reserved fit clearance of the matching part of mould and/or upper die and lower die and while mould at least One upper set stomata.

3. the preparation method of multicellular metal foil, the multicellular metal foil is the thin slice being made up of metal polyporous material, its step bag Include：(1) carrier is prepared, the carrier is by a certain element or several in the metal polyporous material for constituting flexible, porous metal foil The paillon foil that element is constituted；(2) the raw material powder dispersant and binding agent that remaining element for constituting metal polyporous material is made It is configured to thick suspension；(3) suspension is attached to carrier surface and is allowed to dry formation and be attached to carrier table Diaphragm on face；(4) compacting is carried out to the carrier for adhering to diaphragm and improves Powder Particles Packing consistency in diaphragm；(5) to compacting The carrier of attachment diaphragm obtains flexible, porous metal foil after being sintered afterwards；

For the sintering frock of the diaphragm, including the upper die and lower die and side mould being made up of exotic material, the upper mould, Lower mould coordinates to form the die cavity for matching with internal diaphragm respectively with side mould；The die cavity is connected with for distributing Sinter the exhaust structure of volatile matter, the exhaust structure be the reserved fit clearance of the matching part of upper mould and side mould and/ Or lower mould with while the reserved fit clearance of the matching part of mould and/or upper die and lower die and while mould at least One upper set stomata.

4. the method as described in any one claim in claims 1 to 3, it is characterised in that：The multicellular metal foil is Flexible, porous metal foil, the flexible, porous metal foil is stood by solid solution alloy, the metal simple-substance of face-centred cubic structure or body-centered The thin slice that the metal simple-substance of square structure is made up of the metal polyporous material of matrix phase, the thickness of the thin slice is 5~1500 μm, put down Equal aperture is 0.05~100 μm, and porosity is 15~70%.

5. method as claimed in claim 4, it is characterised in that：The thin slice is by metal of the unlimited solid solution alloy for matrix phase Porous material is constituted.

6. method as claimed in claim 5, it is characterised in that：The thin slice is by Ag-Au solid solution, Ti-Zr solid solution, Mg- Cd solid solution, Fe-Cr solid solution or Ni-Cu solid solution are made up of the metal polyporous material of matrix phase.

7. method as claimed in claim 4, it is characterised in that：The thin slice is by metal of the limit solid solution alloy for matrix phase Porous material is constituted.

8. method as claimed in claim 7, it is characterised in that：The thin slice is by Cu-Al solid solution, Cu-Zn solid solution or Fe- C-Cr solid solution is made up of the metal polyporous material of matrix phase.

9. method as claimed in claim 4, it is characterised in that：The thin slice is by Al, Ni, Cu or Pb of face-centred cubic structure The metal polyporous material of matrix phase is constituted.

10. method as claimed in claim 4, it is characterised in that：The thin slice is by Cr, W, V or Mo of body-centered cubic structure The metal polyporous material of matrix phase is constituted.