CN108411240A - A kind of powder cored filament material and preparation method thereof - Google Patents

Abstract

The present invention provides a kind of powder cored filament materials, including powder core；The ingredient of the powder core is：The Cr of 15~25wt%；The Mo of 5~15wt%；The Al of 5~15wt%；The B of 1~5wt%；The Si of 1~5wt%；Surplus is Fe.This powder cored filament material provided by the invention specifically controls powder core ingredient, in powder core under the comprehensive function of various composition and component content, make in the amorphous coating that this powder cored filament material obtains after electric arc spraying high content of amorphous, hardness and corrosion resistance good, and the low in raw material price of this powder cored filament material, element without precious metal, manufacturing cost is low, can large-scale application in the technology fields such as anticorrosion is wear-resisting.The present invention also provides a kind of preparation methods of powder cored filament material.

Description

A kind of powder cored filament material and preparation method thereof

Technical field

The present invention relates to silk material technical fields more particularly to a kind of powder cored filament material and preparation method thereof.

Background technology

Non-crystalline material is not due to having the defect of the crystalline materials such as crystal boundary, precipitated phase and component segregation, with its same ingredient Crystalline alloy coating is compared, and has very excellent hardness, intensity, anticorrosive and wear resistance.But amorphous block material Preparation need fast solidification technology, process conditions are required harsh so that difficulty of preparation technology is very big and brittleness at room temperature is disconnected The shortcomings of splitting limits its commercial Application.Bulk amorphous alloy is not only overcome with the non-crystalline material of the unique properties of coating form application The shortcomings that material, the performance for also making non-crystalline material excellent obtain fabulous extension, and making it, industrially application becomes on a large scale It may.

Plasma spray technology is constantly broken through and development, high-speed arc spraying technology, Supersonic Plasma Spraying technology and Supersonic The a series of plasma spray technology such as fast flame spray technique be widely used in engineering machinery, electromechanical component remanufacture and anti-corrosion Wear-resisting equal surfacecti proteons.Wherein, high-speed arc spraying technology is since equipment is simple and convenient to operate, the spies such as efficient, at low cost Point is industrially well used and promotes.Sprayed on material is from being melted to rapid condensation during High Speed Electric Arc Spraying Cooling velocity when to matrix can reach 10⁵K/s can be relatively easy to obtain the coating of non crystalline structure, compensate for amorphous The technological deficiency of material preparation difficulty；The application of non-crystalline material also extends electric arc spraying material simultaneously, makes its application field It is more wide.

Iron-based amorphous coating and its performance study are prepared about High Speed Electric Arc Spraying, domestic and foreign scholars have carried out largely Report, as Guo Jinhua et al. exists《The electrochemical behavior of Fe base coating of the electric arc spraying containing amorphous phase》(《Acta Metallurgica Sinica》2007,43 (7):The amorphous coating of FeCrBSiMoWMn is reported in 780-784), and there is good corrosion resistance.Branagan etc. (Journal of Thermal Spray Technology,2005,14(2):196-204) utilize electric arc spraying SHS7170 powder Core-wire material (FeCrMoWBCSiMn) plays the effect of good high temperature resistance erosion on boiler tubing wall.And Hohai University Wu The beautiful duckweed et al. (patent No.：201410229686.1 it is Chinese), the Cheng Jiangbo (patent No.s：201110131654.4 China, the patent No.： 201310001569.5 China), Mtekvision Co., Ltd. and the superfine people's (patent No.s of Iron and Steel Research Geueral Inst Lu Zhi： 200610114516.4), Beijing University of Technology is straight, the He Dingyong et al. (patent No.：201110210324.4 China, the patent No.： 201210466545.2 it is Chinese) all report the powder cored filament material that electric arc spraying prepares iron-based amorphous coating.

But in the prior art, the shadow of factors is easily aoxidized etc. in air due to being limited by arc spraying technology itself It rings, the content of amorphous of the iron-based amorphous coating of preparation is relatively low, and porosity is larger so that coating quality is not high, and powder cored filament material In add precious metal element, rare earth element or the relatively high elemental powders of purity requirement mostly so that the cost of powder cored filament material is big Amplitude increases, and reduces the practical efficiency of electric arc spraying iron-based amorphous coating industrially.Therefore, R＆D costs are cheap, non- The high electric arc spraying iron-based amorphous coating of brilliant content has prodigious realistic meaning with powder cored filament material.

Invention content

In view of this, the purpose of the present invention is to provide a kind of powder cored filament material and preparation method thereof, powder provided by the invention The amorphous coating content of amorphous that core-wire material is prepared is high and at low cost.

The present invention provides a kind of powder cored filament materials, including powder core；

The ingredient of the powder core is：

The Cr of 15~25wt%；

The Mo of 5~15wt%；

The Al of 5~15wt%；

The B of 1~5wt%；

The Si of 1~5wt%；

Surplus is Fe.

In the present invention, the mass content of the Cr is preferably 18~22%, and more preferably 20%；The quality of the Mo contains Amount preferably 8~12%, more preferably 10%；The mass content of the Al is preferably 8~12%, and more preferably 10%；The B Mass content be preferably 2~4%, more preferably 3%；The mass content of the Si is preferably 2~4%, and more preferably 3%.

In the present invention, the granularity of the powder core is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably 90 ~100 mesh.

In the present invention, the preparation method of the powder core includes：

Chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder are mixed, powder core is obtained.

In the present invention, the granularity of the chrome iron powder is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably For 90~100 mesh.

In the present invention, the granularity of the Ferromolybdenum Powder is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably For 90~100 mesh.

In the present invention, the granularity of the FeB powder is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably For 90~100 mesh.

In the present invention, the granularity of the silicon iron powder is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably For 90~100 mesh.

In the present invention, the granularity of the aluminium powder is preferably 60~150 mesh, more preferably 80~120 mesh, most preferably 90 ~100 mesh.

In the present invention, the usage ratio of the chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder is full The mass content of each element in powder core described in sufficient above-mentioned technical proposal.

In the present invention, the powder cored filament material preferably further includes the metal sheath for coating powder core, and the metal sheath is preferred For steel band, the steel band both can be that carbon steel band may be stainless steel band.In the present invention, the material of the stainless steel band Preferably 304 stainless steels, 430 stainless steels or 316 stainless steels.

In the present invention, the filling rate of powder core is preferably 32~40% in the powder cored filament material, and more preferably 34~38%, Most preferably 35~36%.

In the present invention, the diameter of the powder cored filament material is preferably 1.5~1.7mm, 1.9~2.1mm or 2.9~3.1mm, More preferably 1.6mm, 2.0mm or 3.0mm, most preferably 2.0mm.

The present invention provides a kind of preparation methods of the powder cored filament material described in above-mentioned technical proposal, including：

Chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder are mixed, powder core powder is obtained；

The powder core powder is coated using metal sheath, obtains powder cored filament material.

In the present invention, the granularity and dosage of the chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder The granularity and amount ratio of ratio and chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder described in above-mentioned technical proposal Example is consistent, and details are not described herein.

In the present invention, the mixing carries out preferably in meal mixer, and the time of the mixing is preferably 1~3 hour, more Preferably 1.5~2.5 hours, most preferably 2 hours.

In the present invention, after the completion of the mixing, preferably obtained mixture is dried.In the present invention, described Dry method, which is preferably put into drying box, dries heat preservation.

In the present invention, the method for the cladding is preferably：

By in the powder filled extremely metal sheath with U-lag of the powder core, drawing after U-lag is closed obtains powder core Silk material.

In the present invention, it is preferred to which steel band is suppressed, U-lag is made it have.

In the present invention, powder core described in the powder filled filling rate and above-mentioned technical proposal in U-lag of the powder core Filling rate is consistent, and details are not described herein.

U-lag closure is made powder core powder cladding wherein by the present invention.

The present invention carries out the metal sheath tube reducing after drawing makes U-lag be closed, and obtains the powder cored filament material of required diameter dimension.

The present invention is of low quality for existing electric arc spraying iron-based amorphous coating, and content of amorphous is relatively low, expensive etc. Problem provides a kind of powder cored filament material preparing iron-based amorphous coating for High Speed Electric Arc Spraying.Powder core wire provided by the invention Material is made of most common industrial iron(-)base powder ferrochrome, ferro-boron, molybdenum-iron, ferrosilicon and aluminium powder, and metal sheath steel band can make With ordinary carbon steel or stainless steel band, manufacturing cost is cheap.The iron-based being prepared using powder cored filament material provided by the invention is non- Crystal coating institutional framework is fine and close, porosity≤2%, and content of amorphous is high, content of amorphous volume fraction >=70%；And this amorphous There is coating higher bond strength and cohesive strength, coating thickness to have excellent wear and corrosion behavior up to 5.0mm.

Compared with prior art, the present invention makes powder cored filament material by rationally designing each element component and content in powder core Cost is greatly lowered, and iron-based amorphous coating prepared by this powder cored filament material, and content of amorphous is high >=70%, and porosity is low≤ 2%, there is higher bond strength and cohesive strength, coating layer thickness to have in acid alkaline environment more excellent up to 5.0mm Corrosion resistance.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is the X ray diffracting spectrum for the iron-based amorphous coating that the embodiment of the present invention 1 obtains；

Fig. 2 is the Cross Section Morphology figure for the iron-based amorphous coating that the embodiment of the present invention 1 obtains；

Fig. 3 is the electrochemical profiles for the iron-based amorphous coating that Example 1 and Example 2 of the present invention obtains.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment 1

The industrial alloy powder ferrochrome of 60~150 mesh, molybdenum-iron, ferro-boron, ferrosilicon, aluminium powder are pressed into element mass percent： 23%Cr, 5%Mo, 5%Al, 2%B, 2%Si, surplus Fe, weighing and burden.

Mixed-powder after dispensing is put into mixer and is mixed 2 hours, drying heat preservation, obtains powder core powder after mixing Body.

304 stainless steel bands for selecting 12 × 0.3mm (12mm wide, 0.3mm are thick), are first shut out U-lag, then will be above-mentioned Powder core powder is added by the amount of filling rate 37% in U-lag, and U-lag is healed up, required diameter 2mm is pulled to by wire drawing tube reducing, Powder cored filament material is made.

Using the above-mentioned powder cored filament material being prepared, in 45 by degreasing and rust removal sandblasting roughening^#Electricity is prepared in steel matrix Arc spray-on coating, spray voltage 34V, spraying current 200A, spray distance 180mm spray air pressure 0.75MPa, spraying Multipass, every twice of compressed air cooling is primary, obtains iron-based amorphous coating.

XRD diffraction tests are carried out to the iron-based amorphous coating that the embodiment of the present invention 1 obtains, test results are shown in figure 1, from As can be seen that there is a diffusing scattering peak in 2 θ=40~50 ° sections, this is typical amorphous structure in Fig. 1.Explanation is adopted The powder cored filament material prepared with the High Speed Electric Arc Spraying embodiment of the present invention 1, forms non crystalline structure in coating deposition process.Fig. 1 In without finding apparent crystal phase diffraction maximum.By being fitted calculating to XRD spectrum, content of amorphous volume fraction in coating It is 92%.

Cross Section Morphology observation is carried out to the iron-based amorphous coating that the embodiment of the present invention 1 obtains, the results are shown in Figure 2 for observation, Figure it is seen that coating structure prepared by the powder cored filament material that the embodiment of the present invention 1 provides is uniform, compact structure, only on a small quantity Black crystallization object be mingled with.Moreover, coating combined with matrix it is very good, when coating thickness reaches 1.5mm or so, coating and matrix In conjunction with still not cracked.The porosity that coating is measured by gray level image method is 1.5%.

Embodiment 2

The industrial alloy powder ferrochrome of 60~150 mesh, molybdenum-iron, ferro-boron, ferrosilicon, aluminium powder are pressed into element mass percent： 15%Cr, 10%Mo, 5%Al, 5%B, 5%Si, surplus Fe, weighing and burden.

Mixed-powder after dispensing is put into mixer and is mixed 2 hours, drying heat preservation, obtains powder core powder after mixing Body.

The normal carbon steel band for selecting 12 × 0.3mm (12mm wide, 0.3mm are thick), is first shut out U-lag, then will be upper It states powder core powder to be added in U-lag by the amount of filling rate 40%, U-lag is healed up, required diameter is pulled to by wire drawing tube reducing Powder cored filament material is made in 2mm.

Using the above-mentioned powder cored filament material being prepared, in 45 by degreasing and rust removal sandblasting roughening^#Electricity is prepared in steel matrix Arc spray-on coating, spray voltage 34V, spraying current 200A, spray distance 180mm spray air pressure 0.75MPa, spraying Multipass, every twice of compressed air cooling is primary, obtains iron-based amorphous coating.

The iron-based amorphous coating obtained to the embodiment of the present invention 2 according to the method for embodiment 1 is detected, testing result For, content of amorphous volume fraction is 85% in the iron-based amorphous coating that the embodiment of the present invention 2 obtains, coating porosity 1.7%, Coating structure is uniform, compact structure, and only a small amount of black crystallization object is mingled with, and it is very good that coating is combined with matrix, coating thickness When reaching 1.5mm or so, coating is combined still not cracked with matrix.

Test H of the iron-based amorphous coating in 1mol/L of Example 1 and Example 2 of the present invention acquisition₂SO₄Solution in Dynamic potential polarization curve, testing result is as shown in figure 3, from figure 3, it can be seen that powder cored filament material system provided in an embodiment of the present invention The corrosion potential of standby coating is about -0.3V, and passive current density is then 10^-5~10^-6Between A, there is preferable corrosion resistance Energy.

As seen from the above embodiment, the present invention provides a kind of powder cored filament materials, including powder core；The ingredient of the powder core is： The Cr of 15~25wt%；The Mo of 5~15wt%；The Al of 5~15wt%；The B of 1~5wt%；The Si of 1~5wt%；Surplus is Fe. This powder cored filament material provided by the invention specifically controls powder core ingredient, various composition and component content in powder core Comprehensive function under, make in the amorphous coating that this powder cored filament material obtains after electric arc spraying high content of amorphous, hardness and anti- Corrosive nature is good, and the low in raw material price of this powder cored filament material, element without precious metal, and manufacturing cost is low, can be extensive Applied to the technology fields such as anticorrosion is wear-resisting.

Claims (10)

1. a kind of powder cored filament material, including powder core；

The ingredient of the powder core is：

The Cr of 15~25wt%；

The Mo of 5~15wt%；

The Al of 5~15wt%；

The B of 1~5wt%；

The Si of 1~5wt%；

Surplus is Fe.

2. powder cored filament material according to claim 1, which is characterized in that the granularity of the powder core is 60~150 mesh.

3. powder cored filament material according to claim 1, which is characterized in that further include the metal sheath for coating powder core.

4. powder cored filament material according to claim 3, which is characterized in that the ingredient of the metal sheath is carbon steel or stainless Steel.

5. powder cored filament material according to claim 4, which is characterized in that the stainless steel is selected from 304 stainless steels, 430 stainless Steel or 316 stainless steels.

6. powder cored filament material according to claim 1, which is characterized in that in the powder cored filament material filling rate of powder core be 32~ 40%.

7. powder cored filament material according to claim 1, which is characterized in that a diameter of 1.5~1.7mm of the powder cored filament material, 1.9~2.1mm or 2.9~3.1mm.

8. a kind of preparation method of powder cored filament material described in claim 1, including：

Chrome iron powder, Ferromolybdenum Powder, FeB powder, silicon iron powder and aluminium powder are mixed, powder core powder is obtained；

The powder core powder is coated using metal sheath, obtains powder cored filament material.

9. according to the method described in claim 8, it is characterized in that, the chrome iron powder, Ferromolybdenum Powder, FeB powder, ferrosilicon The granularity of powder and aluminium powder is 60~150 mesh.

10. according to the method described in claim 8, it is characterized in that, the method for the cladding is：

By in the powder filled extremely metal sheath with U-lag of the powder core, drawing after U-lag is healed up obtains powder cored filament material.