CN106271197A - Chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, it is made up of the medicated powder of external carbon steel band and its parcel, medicated powder accounts for the 38.0%-42.0% of welding wire gross weight, the ratio of each component is in medicated powder: high carbon ferro-chrome 20.0%-25.0%, ferrotianium 38.0%-45.0%, manganese powder 1.2%-1.6%, metal molybdenum powder 2.0%-2.2%, graphite 3.5%-4.0%, calcium-silicon 2.5%-5.0%, zircon sand 2.0%-3.0%, fluorite 8.0%-10.0%, boron carbide 0.1%-0.2%, remaining is iron powder.Its preparation method is: external steel band is made U-shaped, adds medicated powder, carry out five passage continuous drawing tube reducings, obtain flux-cored wire after healing up in U-lag.The present invention is applicable to grinding roller, the composite manufacturing by hard surfacing of mill and repairs online, it is possible to significantly improve the service life of grinding roller, mill.

Description

Chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire and preparation method thereof

Technical field

The present invention relates to a kind of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire and preparation method thereof, belong to Welding material and processing technique field.

Background technology

Grinding roller is the important spare part of power industry, cement industry, and its using effect directly affects the production effect of grinding machine Rate and product quality.Grinding roller under arms during by the cutting repeatedly of material, it is desirable to it has good resistance to abrasive particle Polishing machine.The most employing overlaying method composite manufacturing grinding rollers, i.e. at body surface open arc built-up welding height chromium high alloy Cast iron flux-cored wire, to obtain the overlay cladding of hard high-wearing feature, improves grinding roller service life.High chromium high alloy Cast iron flux-cored wire is Cr25C5 alloy system, and its microscopic structure is to be distributed a large amount of column or block on ledeburic matrix The chromium carbide of shape, surfacing hardness is HRC58～62, and wearability is good, be widely used in grinding roller Bead weld repair and Composite manufacturing.

The milling roller surface phosphorus content that high chromium high alloy iron welding wire built-up welding manufactures is high (about 5%), and tissue fragility is big, heap Layer is distributed a large amount of fine cracks.During under arms, grinding roller is once by shock loading, and crackle easily extends also It is linked to be netted, causes overlay cladding spalling failure.Fall block peeling off is the topmost failure mode of this type of grinding roller, will cause Grinding machine stops production and keeps in repair, and has had a strong impact on its production efficiency and product quality.Therefore, a kind of deposited metal hardness of exploitation Height, wearability are good, and the production efficiency improving grinding machine is had significantly by the resurfacing welding material with excellent impact resistance Meaning.

Summary of the invention

It is an object of the invention to provide a kind of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, this medicated core Welding wire uses 98%Ar+2%O₂Gas shielded welding, its welding technological properties is excellent, and the hardness of overlay cladding is high (more than HRC59), wearability is good, it is adaptable to grinding roller, the composite manufacturing by hard surfacing of mill and repair online.

Another object of the present invention is to provide the preparation method of a kind of described flux-cored wire.

For achieving the above object, the present invention is by the following technical solutions:

A kind of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, by external carbon steel band and the medicated powder of its parcel Composition, wherein, medicated powder accounts for the 38.0%-42.0% of welding wire gross weight, the ratio of each component is: high-carbon in this medicated powder Ferrochrome 20.0%-25.0%, ferrotianium 38.0%-45.0%, manganese powder 1.2%-1.6%, metal molybdenum powder 2.0%-2.2%, Graphite 3.5%-4.0%, calcium-silicon 2.5%-5.0%, zircon sand 2.0%-3.0%, fluorite 8.0%-10.0%, carbon Changing boron 0.1%-0.2%, remaining is iron powder.

The flux-cored wire of the present invention uses 98%Ar+2%O₂Gas shielded welds, and the composition range of its deposited metal is: Cr 5.0%-6.0%, Ti 4.0%-5.0%, Mo 0.6%-1.0%, Mn 0.5%-1.2%, C1.2%-1.6%, Si 0.3%-0.8%, B 0.02%-0.1%, Fe surplus.

The chromium of the present invention-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, its phosphorus content is less than high-carbon high-alloy Cast iron, belongs to high-carbon steel category, reduces the tendency of hardenability of overlay cladding, it is to avoid overlay cladding forms micro-crack；Add simultaneously Add titanium elements and form granular carbonization titanium, with block chromium carbide complex intensifying overlay cladding.Although the carbon content of overlay cladding Relatively low, but the existence of granular carbonization titanium improves the hardness of overlay cladding, and reduce its peeling tendency, do not improving On the premise of overlay cladding phosphorus content, it is ensured that the hardness of overlay cladding reaches more than HRC59, and overlay cladding flawless, Improve its anti-strip ability, the service life of grinding roller can be extended.

The chromium of the present invention-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire is by carbonization in built-up welding deposited metal The hardening constituent such as titanium, chromium carbide improves hardness and the wearability of deposited metal.Owing to titanium is active element, welding Journey easily aoxidizes, causes the titanium elements in medicated powder to be difficult to be transitioned into built-up welding deposited metal, it is therefore desirable to pass through formula Technology solves this technical barrier, to ensure Ti content in deposited metal.The present invention is by adding silicon in welding wire medicated powder Calcium alloy, the calcium constituent that in welding process, scaling loss is more active, to reduce the oxidization burning loss of titanium elements, improves the mistake of titanium Cross coefficient；And the oxidation product of titanium elements (titanium oxide) also can join with the oxidation product (silicon oxide) of element silicon Close slag making, improve quality of weld seam molding.Additionally, the flux-cored wire of the present invention uses neutral protective gas (98%Ar+2%O₂) welding, the amount of oxidation loss of titanium elements relatively uses oxidizing gas (100%CO₂) notable Reduce；The O of 2% is added in argon₂, it is for increasing arc stability, and improves the forming quality of weld seam.

For the production technology of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, its external steel band is low Carbon steel band, in order to ensure the production technology of welding wire, needs the strict technical parameter controlling external steel band.Resisting of steel band Tensile strength is too low, will cause the deflection of drawing welding wire process not, easy heap silk in production, and welding wire easily reverses, will Cause electric arc in welding process to rotate with the torsion of welding wire, reduce arc stability, deteriorate quality of weld seam molding. The tensile strength of steel band is too high, and elongation percentage is too small, will cause drawing welding wire difficulty, fracture of wire easily occurs in drawing process, Production process is discontinuous, and yield rate is low.The tensile strength of the external carbon steel band that the present invention uses is not less than 270MPa, Elongation percentage is not less than 40%, raw to realize the high-efficiency and continuous of chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire Produce.

The preparation method of the flux-cored wire of the present invention is: made by the external steel band of thickness 0.3mm, width 16mm U-shaped, in U-lag add medicated powder, after U-lag heals up, carry out successively φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage continuous drawing tube reducing, obtain the flux-cored wire that specification is φ 2.0mm.

The flux-cored wire of the present invention, takes into account built-up welding deposition efficiency and the advantage of gas shielded welding, i.e. welding wire has flue dust Few, splash little, the feature of the gas shielded welding such as flexible operation, and gage of wire specification is relatively big (φ 2.0mm), its Built-up welding deposition efficiency is significantly higher than the gas protection wire (φ 1.2mm) of regular size.

The invention have the benefit that

The flux-cored wire welding technological properties of the present invention is excellent, and arc stability, spatter are little, quality of weld seam molding Good, the metallurgical imperfection such as flawless, pore, slag inclusion.

The flux-cored wire of the present invention is applicable to grinding roller, the composite manufacturing by hard surfacing of mill and repairs online, easy to operate, The hardness of overlay cladding reaches more than HRC59, has higher wearability and impact resistance, it is possible to significantly improve Grinding roller, the service life of mill.

Detailed description of the invention

In the flux-cored wire of the present invention, in medicated powder, content and the function of each component are as follows:

High carbon ferro-chrome: transition chromium, carbon in built-up welding deposited metal, its content is 20.0%-25.0% (quality Percentage composition, as follows).

Ferrotianium: transition titanium elements in built-up welding deposited metal, titanium elements and carbon are synthesized titanium carbide, disperse Being distributed on deposited metal martensitic matrix, improve hardness and the wearability of deposited metal, its content is 38.0%-45.0%.

Graphite: transition carbon in built-up welding deposited metal, carbon is solid-solubilized in martensitic matrix, strengthens matrix Tissue, and formation titanium carbide is combined with titanium, improving hardness and the wearability of deposited metal, its content is 3.5%-4.0%.

Manganese powder: transition manganese element in built-up welding deposited metal, deoxidation, desulfurization, its content is 1.2%-1.6%.

Metal molybdenum powder: transition molybdenum element in built-up welding deposited metal, its content is 2.0%-2.2%.

Calcium-silicon: improve the transfer coefficient of titanium elements, and to deposited metal transition element silicon, the oxygen that oxidation produces SiClx participates in slag making, and its content is 2.5%-5.0%.

Zircon sand: slag making, adjusts the physical and chemical performance of slag, and has stabilising arc effect, and its content is 2.0%-3.0%.

Fluorite: dehydrogenation, reduces weld metal pore tendency, adjusts the viscosity of slag, and its content is 8.0%-10.0%.

Boron carbide: transition carbon, boron element in built-up welding deposited metal, its content is 0.1%-0.2%.

Remaining is iron powder.

The particle size range of above-mentioned medicated powder is 80～200 mesh, i.e. 75～180 μm.

Intensity is not less than 290MPa, and elongation percentage is not less than the external steel band of 40% through being rolled into U-shaped, adds wherein After entering medicated powder and healing up, carry out φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five successively Passage continuous drawing tube reducing, finally gives the flux-cored wire that specification is φ 2.0mm.

The welding wire of the present invention is applicable to 98%Ar+2%O₂Gas shielded arc welding, it is recommended that welding condition is: welding electricity Stream: 180A～240A, weldingvoltage: 28V～32V, speed of welding: 8cm/min～20cm/min (specifically welds Depending on speed forming quality to be regarded).

Below by way of specific embodiment, the present invention will be further described.

Embodiment 1

By 220g high carbon ferro-chrome, 410g ferrotianium, 15g manganese powder, 21g metal molybdenum powder, 37g graphite, 38g Calcium-silicon, 25g zircon sand, 90g fluorite, 1g boron carbide, 143g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 315MPa, and elongation percentage is 41%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 40%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Embodiment 2

By 230g high carbon ferro-chrome, 400g ferrotianium, 15g manganese powder, 20g metal molybdenum powder, 38g graphite, 40g Calcium-silicon, 27g zircon sand, 95g fluorite, 2g boron carbide, 133g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 320MPa, and elongation percentage is 42%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 41%, steel band heal up through Cross φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, finally give The finished product welding wire of a diameter of 2.0mm.

Embodiment 3

By 200g high carbon ferro-chrome, 380g ferrotianium, 12g manganese powder, 20g metal molybdenum powder, 35g graphite, 25g Calcium-silicon, 20g zircon sand, 80g fluorite, 1g boron carbide, 227g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 330MPa, and elongation percentage is 45%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 38%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Embodiment 4

By 250g high carbon ferro-chrome, 450g ferrotianium, 16g manganese powder, 22g metal molybdenum powder, 40g graphite, 50g Calcium-silicon, 30g zircon sand, 100g fluorite, 2g boron carbide, 40g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 320MPa, and elongation percentage is 40%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 42%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Comparative example 1

By 230g high carbon ferro-chrome, 400g ferrotianium, 15g manganese powder, 20g metal molybdenum powder, 30g graphite, 40g Calcium-silicon, 27g zircon sand, 95g fluorite, 2g boron carbide, 141g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 320MPa, and elongation percentage is 42%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 41%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Comparative example 2

By 200g high carbon ferro-chrome, 330g ferrotianium, 12g manganese powder, 20g metal molybdenum powder, 35g graphite, 25g Calcium-silicon, 20g zircon sand, 80g fluorite, 1g boron carbide, 277g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 330MPa, and elongation percentage is 45%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 38%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Comparative example 3

By 230g high carbon ferro-chrome, 400g ferrotianium, 15g manganese powder, 20g metal molybdenum powder, 38g graphite, 40g Calcium-silicon, 27g zircon sand, 60g fluorite, 2g boron carbide, 168g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 305MPa, and elongation percentage is 43%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 41%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Comparative example 4

By 230g high carbon ferro-chrome, 400g ferrotianium, 15g manganese powder, 20g metal molybdenum powder, 38g graphite, 40g Calcium-silicon, 27g zircon sand, 120g fluorite, 2g boron carbide, 108g iron powder, altogether 1000g medicated powder, select The carbon steel steel band that thickness is 0.3mm, width is 16mm, tensile strength is 325MPa, and elongation percentage is 41%, Being rolled into U-shaped, medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 41%, and steel band heals up After through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, finally Obtain the finished product welding wire of a diameter of 2.0mm.

Comparative example 5

By 250g high carbon ferro-chrome, 450g ferrotianium, 16g manganese powder, 22g metal molybdenum powder, 40g graphite, 50g Calcium-silicon, 30g zircon sand, 100g fluorite, 2g boron carbide, 40g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 370MPa, and elongation percentage is 32%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 42%, after steel band heals up Through φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage drawing tube reducing, final Finished product welding wire to a diameter of 2.0mm.

Comparative example 6

By 250g high carbon ferro-chrome, 450g ferrotianium, 16g manganese powder, 22g metal molybdenum powder, 40g graphite, 50g Calcium-silicon, 30g zircon sand, 100g fluorite, 2g boron carbide, 40g iron powder, altogether 1000g medicated powder, select thickness The carbon steel steel band that degree is 0.3mm, width is 16mm, tensile strength is 320MPa, and elongation percentage is 40%, will It rolls into U-shaped, and medicated powder adds in U-type groove after being mixed evenly, and medicated powder activity coefficient is 42%, after steel band heals up Through φ 4.32mm, φ 2.87mm, φ 2.34mm, φ 1.97mm four-pass drawing tube reducing, finally give a diameter of The finished product welding wire of 2.0mm.

The Welder of the chromium that embodiment and comparative example are related to-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire Skill performance and surfacing hardness carry out performance evaluation.Use GB/T25776-2010 " welding material welding technological properties Assessment method " to the welding technological properties of welding wire, (arc stability, weld seam take off slag rate, spatter rate, weld seam Pore tendency etc.) it is evaluated.The welding condition used is: welding current 200A, weldingvoltage 30V, Speed of welding: 15cm/min, protective gas 98%Ar+2%O₂, gas flow: 15L/min.

The Contrast on effect of each embodiment and comparative example is as shown in table 1:

The each embodiment of table 1 and the welding wire evaluation of comparative example

As shown in table 1, the content of graphite comparative example 1 less than 3.5%, the hardness of overlay cladding is significantly lower than embodiment； The ferrotianium content comparative example 2 less than 38.0%, owing to carbide former Ti content is low in overlay cladding, causes heap The hardness of layer is less than embodiment；The fluorite content comparative example 3 less than 8.0%, the pore tendency of weld seam is higher than implementing Example；The fluorite content comparative example 4 higher than 10.0%, spatter rate is higher than embodiment, and weld seam takes off slag rate and is less than Embodiment；The external steel band elongation percentage comparative example 5 less than 40%, welding wire reverses serious, causes welding arc stablility Property poor, spatter rate be higher than embodiment；Use the comparative example 6 of four-pass continuous drawing, welding wire processing hardening journey Degree height, fracture of wire is serious, and yield rate is low, and its spatter rate is also significantly greater than embodiment.

The made flux-cored wire of embodiment 1～4, its welding usability is good, arc stability, and de-slag rate is high, and welding flies Rate of spattering is low, and weld porosity tendency is low, and the hardness of overlay cladding reaches more than HRC59, and its combination property is significantly better than Comparative example 1～6.

Claims (5)

1. chromium-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, by external carbon steel band and its parcel Medicated powder forms, it is characterised in that medicated powder accounts for the 38.0%-42.0% of welding wire gross weight, and in this medicated powder, each component joins Ratio is: high carbon ferro-chrome 20.0%-25.0%, ferrotianium 38.0%-45.0%, manganese powder 1.2%-1.6%, metal molybdenum powder 2.0%-2.2%, graphite 3.5%-4.0%, calcium-silicon 2.5%-5.0%, zircon sand 2.0%-3.0%, fluorite 8.0%-10.0%, boron carbide 0.1%-0.2%, remaining is iron powder.

Chromium the most according to claim 1-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, its feature It is, uses 98%Ar+2%O₂Gas shielded welds, and the composition range of its deposited metal is: Cr 5.0%-6.0%, Ti 4.0%-5.0%, Mo 0.6%-1.0%, Mn 0.5%-1.2%, C 1.2%-1.6%, Si 0.3%-0.8%, B 0.02%-0.1%, Fe surplus.

Chromium the most according to claim 1 and 2-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, its It is characterised by, the tensile strength >=270MPa of its external carbon steel band, elongation percentage >=40%.

Chromium the most according to claim 1 and 2-titanium intensified high-carbon high-alloy steel abrasion-proof overlaying welding flux-cored wire, its Being characterised by, the diameter specifications of described flux-cored wire is φ 2.0mm.

5. the preparation method of flux-cored wire according to any one of a claims 1 to 3, it is characterised in that by thickness Degree 0.3mm, the external steel band of width 16mm make U-shaped, add medicated powder in U-lag, and U-lag heals up After, carry out φ 4.32mm, φ 3.51mm, φ 2.87mm, φ 2.34mm, φ 1.97mm five passage continuous drawing successively Tube reducing, obtains the flux-cored wire that specification is φ 2.0mm.