CN106555026A - A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn - Google Patents

Abstract

The present invention relates to a kind of alloy claded wire.A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn; the core-spun yarn includes sandwich layer and the sheetmetal layer being wrapped in outside the sandwich layer; mesh-supported layer made by steel or iron is provided between sandwich layer and sheetmetal layer; the sandwich layer includes titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line; real core metal calcium line is wrapped up by intermediate protective layer; titanium silicon nitride alloyed powder last layer wraps up intermediate protective layer, and real core metal calcium line is 1 with the mass ratio of titanium silicon nitride alloyed powder last layer:2 ~ 5, it is below 3mm containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder that described titanium silicon nitride alloyed powder last layer is particle diameter.Alloy and calcium are added in micro alloyed steel by the method using core-spun yarn and can not only solve the problems, such as that the rate of recovery is low, it is simultaneously higher than conventional solid metal calcium line recovery rate, holding time is longer, the more stable advantage of recovery rate, with significant economic benefit.

Description

A kind of solid calcium metal and containing rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder be combined Core-spun yarn

Technical field

The present invention relates to a kind of alloy claded wire.

Background technology

China is big steel country, but the ratio shared by the quantity and kind of high-quality steel is less, can not only meet China Jing Ji builds the requirement with national defense construction, and the waste of resource is quite serious, and the cost for causing smelting iron and steel is continuously increased.Solution Certainly the fundamental way of the problems referred to above is that the novel metallurgical subject-micro-alloying technology occurred using 20 century 70s is existed Micro (0.001%-0.1%) alloying element is added in steel, just can be to the performance of steel (such as high intensity, high tenacity, good solderable Property and corrosion resistance) reach significant improvement, while saving valuable alloying element, with reduces cost, this is traditional iron and steel Produce the important symbol to modern production conversion.After the nineties in 20th century, the main iron and steel producing country of China and the world makes in succession Development plan that is fixed and implementing New Generation Steel PRODUCTION TRAITS, super fine organization, high-cleanness, high, high evenness micro alloyed steel into For the Main Trends of The Development of ferrous materials.At present, micro alloyed steel accounts for the total ratio most of steel, and world average level is about 15%, Industrialized country reaches 30%, and China is less than 5%, therefore China's urgent need micro-alloying technology transforms the original low-alloy of China High-strength steel system, and micro alloyed steel kind and Iron ＆ Steel Material of New Generation that exploitation is badly in need of are combined with controlled rolling and controlled cooling.

Core-spun yarn is to be intended to add molten steel or the various additives (deoxidier, desulfurizing agent, alterant, alloy etc.) in iron liquid Certain granularity is broken into, is then included for a composite with random length with cold-rolled low carbon steel band.Cored Line technology is a kind of external refining means for growing up on the basis of spraying metallurgy technology the eighties.Core-spun yarn is applied to steel-making And casting.Steel inclusion morphology can be purified for steel-making, molten steel castability is improved, improved the performance of steel, and significantly can carry Low alloy-consumption, drops in heavy alloyed recovery rate, reduces steel-making cost, remarkable in economical benefits.

Titanium silicon nitride core-spun yarn is new composite core-spun yarn in screw-thread steel wire production.Add from the refining later stage, can The recovery rate of nitrogen in steel titanium is improved, other ferroalloy consumptions is reduced, with significant economic benefit.Due to titanium silicon nitride alloy Proportion kicks the beam（In titanium silicon nitride alloy, iron content is lower than ferro-titanium by more than 30%）, in adition process, swim in molten steel surface And combined with slag and be oxidized, cause the recovery rate of titanium relatively low（Average out to 27%）, Ti content 0.0038% in steel do not reach matter Amount internally controlling requirement.And titanium silicon nitride alloy is fed in steel by the form of core-spun yarn at Argon station, on the one hand can be that alloy is fast Speed enters molten steel, it is to avoid alloy is aoxidized by slag in molten steel；On the other hand, after stove, the molten steel oxidation of deoxidation treatment is low, The scaling loss of titanium can be reduced, so as to improve and stablize the rate of recovery of the titanium in steel.

Calcium treatment is the required technique of current special steel smelting, and molten steel Calcium treatment is will with injection metallurgical method or injection feeding technology Calcium metal or alloy add molten steel deep, reach deoxidation, desulfurization, make the outer concise skill of stove of the metallurgical effects such as nonmetal inclusion denaturation Art.Due to the fusing point of calcium metal it is low（838℃）, boiling point is also low（1450℃）, the solubility very little in molten steel（When 1600 DEG C, It is 0.03% when calcium vapour pressure is 0.186MPa）, the density of calcium also very little（1.55g/cm³）, in adding molten steel, easily float to steel On slag surface with air in oxygen and in slag liquid oxide reaction and scaling loss is fallen.Therefore generally use the core-spun yarn containing calcium metal such as CaSi core-spun yarns（Ca28%～32%）Or cafe core-spun yarns（Ca about 30%, Fe about 70%）, and molten metal will be added to as far as possible when processing Deep, using the static pressure of molten metal, make calcium before calcium bubble is become i.e. with steel in oxygen, sulphur etc. react, be unlikely to one plus Enter to reform into calcium bubble floating to lose.Even so, the recovery rate of calcium metal still only has 7～18% or so, substantial amounts of metal Calcium all unnecessary wastes.Find through substantial amounts of research, by pulvis（Silicon calcium powder or calcium metal, iron powder）The core-spun yarn of composition is entered After ladle, softened in the presence of high temperature, even if higher wire-feeding velocity, core-spun yarn cannot also penetrate high-temperature molten steel entrance Deep, is located at the top of molten steel, it is easy to which scaling loss is fallen to slag surface to form calcium bubble floating mostly.

The application for a patent for invention of applicant's application（Application number：201510160282.6, applying date 2015.04.07）It is open A kind of titanium silicon nitride core-spun yarn, including sandwich layer and the sheetmetal layer being wrapped in outside the sandwich layer, the sandwich layer is titanium silicon nitride Alloy-layer, is provided with mesh-supported layer made by steel or iron between the sandwich layer and sheetmetal layer, the titanium silicon nitride alloy-layer is by grain Footpath is constituted for the titanium silicon nitride alloying pellet of below 3mm.Carbon or nitrogen in the Ti of the invention and steel forms size for nano level Compound, they are best to the thinning effect organized, and improve the intensity of ferrous materials, and nitrogen pick-up improves the stability of TiN particles, more Austenite Grain Growth is prevented effectively.Cheap nitrogen is made full use of, in the case where certain strength level is ensured, titanium can be saved Addition, further reduce non-hardened and tempered steel cost.

The content of the invention

It is an object of the invention to provide a kind of solid calcium metal and containing rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder be combined Core-spun yarn, alloy and calcium be added in micro alloyed steel by the method using core-spun yarn can not only to solve the rate of recovery low Problem, while higher than conventional solid metal calcium line recovery rate, the holding time is longer, the more stable advantage of recovery rate, tool There is significant economic benefit.

In order to realize above-mentioned purpose, following technical scheme is present invention employs：

A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn, the core-spun yarn includes core Layer and the sheetmetal layer being wrapped in outside the sandwich layer, are provided with mesh-supported layer made by steel or iron, institute between sandwich layer and sheetmetal layer Stating sandwich layer includes titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line, and real core metal calcium line is by middle protection The matter of layer parcel, titanium silicon nitride alloyed powder last layer parcel intermediate protective layer, real core metal calcium line and titanium silicon nitride alloyed powder last layer Amount is than being 1:2 ~ 5, it is below 3mm containing rare earth, niobium, vanadium, boron titanium silicon nitride that described titanium silicon nitride alloyed powder last layer is particle diameter Alloy powder；

Described is made up of elements below component by mass percentage containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder：

Al 1.0 ~ 2.5%,

N 10 ~ 25%,

Mn 2.5 ~ 5.0%,

Mg 1.0 ~ 2.5%,

Ti 25 ~ 40%,

Si 25 ~ 35%,

Nb 0.5 ~ 1.0%,

V 0.5 ~ 1.0%,

B 0.5 ~ 1.0%,

Rare earth element 1.0 ~ 2.0%,

P≤0.1%,

S≤0.1%；

Fe surpluses.

Preferably, titanium silicon nitride alloy powder is made up of elements below component by mass percentage：

Al 1.5 ~ 2.0%,

N 15 ~ 20%,

Mn 3.0 ~ 4.0%,

Mg 1.5 ~ 2.0%,

Ti 30 ~ 35%,

Si 30 ~ 35%,

Nb 0.5 ~ 1.0%,

V 0.5 ~ 1.0%,

B 0.5 ~ 1.0%,

Rare earth element 1.0 ~ 2.0%,

P≤0.1%

S≤0.1%；

Fe surpluses.

It is 0.1 ~ 2.0mm as the granularity of preferred titanium silicon nitride alloy powder.

The present invention chooses each component raw material and smelts in a vacuum furnace.Under certain process conditions, nitrogenized, made nitridation Reach optimum efficiency（Regulation content）, then pour into ingot casting.The broken essence of ingot casting Jing is overmolding to diameter using iron sheet into certain particle size For 13 millimeters of core-spun yarn.This kind of core-spun yarn was inserted in molten steel with certain payingoff speed in the refining later stage, and in final steel, Ti contains Amount averagely reaches the recovery rate average 60% of average 55%, the Si of the rate of recovery of 0.008%, Ti.

Using intermediate protective layer（Box hat）, nexine reality core metal calcium line special construction so that the elevated temperature strength of core-spun yarn Greatly improve, greatly improve the penetration capacity of core-spun yarn so that calcium metal can veritably be added to molten steel deep, using steel Hydrostatic, is made calcium metal be reacted with oxygen, sulphur etc. in steel before bubble is become, greatly improves calcium metal recovery rate；It is golden in addition The specific surface area of category calcium is substantially reduced, therefore reduces the gasification rate of calcium metal, increased calcium metal by molten steel absorb when Between, thus the higher rate of recovery can be obtained in molten steel and be stablized.

It is composite core-spun yarn new during iron and steel is produced using solid calcium metal titanium silicon nitride alloyed powder composite core-spun yarn, Add from the refining later stage, the recovery rate of nitrogen in steel titanium silicon can be improved, other ferroalloy consumptions are reduced, with significant economic effect Benefit.Its reason is that Ti and carbon or nitrogen in steel form size for nano level compound, and they are strong to having grown up for crystal grain Inhibition, and the volume fraction shared by this nano level compound be 2% when, to organize thinning effect it is best.Vanadium (V)：Vanadium is the excellent deoxidier of steel.The vanadium for Jia 0.5% in steel can thinning microstructure crystal grain, raising intensity and toughness.Vanadium is formed with carbon Carbide, hydrogen attack resistance can be improved at high temperature under high pressure.Boron (B)：Add micro boron improve the cause of steel in steel Close property and hot rolling performance, improve intensity.Niobium (Nb)：The superheated susceptivity and temper brittleness of niobium energy crystal grain thinning and reduction steel, carries High intensity, but plasticity and toughness declined.Add niobium in ordinary low-alloy steel, can improve Hydrogen, nitrogen, ammonia corrosion ability.Niobium can improving welding property.Add niobium in austenitic stainless steel, intercrystalline corrosion phenomenon can be prevented.It is dilute Earth elements refer to 15 lanthanide series that period of element atom ordinal number is 57-71.These elements are all metals, but they Oxide is much like " soil ", so traditionally claiming rare earth.Rare earth is added in steel, thus it is possible to vary the composition of steel inclusion, form, point Cloth and property, so as to improve the various performances of steel, such as toughness, weldability, cold-forming property.

Alloyed powder of the present invention is added to by using the method for core-spun yarn in micro alloyed steel, with it is following the characteristics of：

1) when preventing soaking, austenite crystal grows up：It is when the micro alloyed steels such as Ti are heated with soaking before forging or rolling, not molten The migration of the microalloy carbonitride Pinning austenite grain boundary of solution, prevents its crystal grain from growing up, thus makes micro alloyed steel in pressure Just possess less austenite crystal before power processing, favourable condition is provided for further fining ferrite grains.

2) austenite recrystallization is prevented during ausforming：During ausforming, analysed by strain inducing After the carbonitride precipitates of the Ti for going out can suppress deformed austeaite recrystallization and recrystallize, crystal grain is grown up, and plays crystal grain thinning Effect.Because the carbonitride particle preferential precipitation of the microalloy element of strain induced precipitate is in austenite crystal in hot procedure On boundary, sub boundary and dislocation line, so as to the motion for effectively preventing crystal boundary, sub boundary and dislocation, its effect can not only be prevented The beginning of recrystallization process, and the carrying out of recrystallization process can also be suppressed.

3) precipitation enhancement after ferrite transformation：After ausforming, ferrite transformation will occur, at this moment will have big The disperse microalloy carbonitride particle of amount is separated out, and these particles for separating out equally also play pinning effect to ferrite crystal grain, limit Make which to grow up.On the other hand, these particles also play precipitation enhancement, improve the intensity of ferrous materials.

4）The size and its volume fraction of microalloy Carbonitride Precipitation particle plays a decisive role to ferrite grain size, Precipitation particles is less, and volume fraction is bigger, and the ferrite crystal grain for being obtained is also less.Thus, effort has precipitation particles Larger volume fraction and less size are the big targets in grain refinement process, while and invention direction.Adding While entering these rare elements, while nitrogen pick-up, because Ti is changed after nitrogen pick-up in alternate distribution, promotes Ti (C, N ) separate out, it is obviously reduced the particle size of precipitated phase, so as to enhance the precipitation enhancement of titanium, increases substantially steel Intensity.Nitrogen is separated out by promoting Ti (C, N), and effectively pinning austenite-ferrite grain boundaries, have refined ferrite brilliant Grain.Nitrogen pick-up may additionally facilitate the formation of Intragranular Acicular Ferrite, further refine ferritic structure.To Trace Titanium Treatment non-hardened and tempered steel, Nitrogen pick-up improves the stability of TiN particles, more effectively prevents Austenite Grain Growth.Cheap nitrogen is made full use of, Ensure, under certain strength level, the addition of vanadium can be saved, further reduce the cost of non-hardened and tempered steel.

Specific embodiment

Embodiment 1

A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn, the core-spun yarn includes core Layer and the sheetmetal layer being wrapped in outside the sandwich layer, are provided with mesh-supported layer made by steel or iron, institute between sandwich layer and sheetmetal layer Stating sandwich layer includes titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line, and real core metal calcium line is by middle protection The matter of layer parcel, titanium silicon nitride alloyed powder last layer parcel intermediate protective layer, real core metal calcium line and titanium silicon nitride alloyed powder last layer Amount is than being 1:2, described titanium silicon nitride alloyed powder last layer is that particle diameter is closed containing rare earth, niobium, vanadium, boron titanium silicon nitride for below 3mm Bronze end；

Described is made up of elements below component by mass percentage containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder：

Al 2.0%,

N 20%,

Mn 4.0%,

Mg 2.0%,

Ti 30%,

Si 35%,

Nb 0.5%,

V 0.5%

B 0.5%,

Rare earth element 1.0%,

P≤0.1%,

S≤0.1%；

Fe surpluses.

This kind of core-spun yarn was inserted in molten steel with certain payingoff speed in the refining later stage, and in final steel, Ti contents averagely reach The recovery rate average 60% of average 55%, the Si of the rate of recovery of 0.008%, Ti, after line feeding, the recovery rate of Ca is more stable, averagely receives Rate is 30%, average desulfurization degree 26%, highest desulfurization degree 33%, minimum sulfur content 0.006%, and average DNA vaccine 20% is minimum Oxygen content 0.00082%, after line feeding, pouring molten steel is normal, and slab quality is good, shows solid calcium metal cored wire of the present invention also Inclusion modification can be promoted, molten steel is purified and improved pouring molten steel performance, and can eliminate in tundish and casting process Nozzle clogging phenomenon.

Embodiment 2

A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn, the core-spun yarn includes core Layer and the sheetmetal layer being wrapped in outside the sandwich layer, are provided with mesh-supported layer made by steel or iron, institute between sandwich layer and sheetmetal layer Stating sandwich layer includes titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line, and real core metal calcium line is by middle protection The matter of layer parcel, titanium silicon nitride alloyed powder last layer parcel intermediate protective layer, real core metal calcium line and titanium silicon nitride alloyed powder last layer Amount is than being 1:3, described titanium silicon nitride alloyed powder last layer is that particle diameter is closed containing rare earth, niobium, vanadium, boron titanium silicon nitride for below 3mm Bronze end；

Described is made up of elements below component by mass percentage containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder：

Al 1.0%,

N 15%,

Mn 4.0%,

Mg 1.0%,

Ti 25%,

Si 25%,

Nb 0.5%,

V 0.5%

B 0.5%,

Rare earth element 1.0%,

P≤0.1%,

S ≤0.1%；

Fe surpluses.

This kind of core-spun yarn was inserted in molten steel with certain payingoff speed in the refining later stage, and in final steel, Ti contents averagely reach The recovery rate average 60% of average 55%, the Si of the rate of recovery of 0.008%, Ti, after line feeding, the recovery rate of Ca is more stable, averagely receives Rate is 30%, average desulfurization degree 26%, highest desulfurization degree 33%, minimum sulfur content 0.006%, and average DNA vaccine 20% is minimum Oxygen content 0.00082%, after line feeding, pouring molten steel is normal, and slab quality is good, shows solid calcium metal cored wire of the present invention also Inclusion modification can be promoted, molten steel is purified and improved pouring molten steel performance, and can eliminate in tundish and casting process Nozzle clogging phenomenon.

Embodiment 3

A kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn, the core-spun yarn includes core Layer and the sheetmetal layer being wrapped in outside the sandwich layer, are provided with mesh-supported layer made by steel or iron, institute between sandwich layer and sheetmetal layer Stating sandwich layer includes titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line, and real core metal calcium line is by middle protection The matter of layer parcel, titanium silicon nitride alloyed powder last layer parcel intermediate protective layer, real core metal calcium line and titanium silicon nitride alloyed powder last layer Than for 4, it is below 3mm containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy that described titanium silicon nitride alloyed powder last layer is particle diameter to amount Powder；

Described is made up of elements below component by mass percentage containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder：

Al 2.5%,

N 25%,

Mn 2.5%,

Mg 2.0%,

Ti 30%,

Si 28%,

Nb 0.5%,

V 0.5%

B 0.5%,

Rare earth element 1.0%,

P≤0.1%,

S≤0.1%；

Fe surpluses.

This kind of core-spun yarn was inserted in molten steel with certain payingoff speed in the refining later stage, and in final steel, Ti contents averagely reach The recovery rate average 60% of average 55%, the Si of the rate of recovery of 0.008%, Ti, after line feeding, the recovery rate of Ca is more stable, averagely receives Rate is 30%, average desulfurization degree 26%, highest desulfurization degree 33%, minimum sulfur content 0.006%, and average DNA vaccine 20% is minimum Oxygen content 0.00082%, after line feeding, pouring molten steel is normal, and slab quality is good, shows solid calcium metal cored wire of the present invention also Inclusion modification can be promoted, molten steel is purified and improved pouring molten steel performance, and can eliminate in tundish and casting process Nozzle clogging phenomenon.

Claims (3)

1. a kind of solid calcium metal and contain rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder composite core-spun yarn, it is characterised in that should Core-spun yarn includes sandwich layer and the sheetmetal layer being wrapped in outside the sandwich layer, and net made by steel or iron is provided between sandwich layer and sheetmetal layer Shape supporting layer, the sandwich layer include titanium silicon nitride alloyed powder last layer, intermediate protective layer and real core metal calcium line, real core metal calcium line Wrapped up by intermediate protective layer, titanium silicon nitride alloyed powder last layer wraps up intermediate protective layer, real core metal calcium line and titanium silicon nitride alloy The mass ratio of powder bed is 1:2 ~ 5, described titanium silicon nitride alloyed powder last layer be particle diameter for below 3mm containing rare earth, niobium, vanadium, Boron titanium silicon nitride alloy powder；

Described is made up of elements below component by mass percentage containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder：

Al 1.0 ~ 2.5%,

N 10 ~ 25%,

Mn 2.5 ~ 5.0%,

Mg 1.0 ~ 2.5%,

Ti 25 ~ 40%,

Si 25 ~ 35%,

Nb 0.5 ~ 1.0%,

V 0.5 ~ 1.0%,

B 0.5 ~ 1.0%,

Rare earth element 1.0 ~ 2.0%,

P≤0.1%,

S ≤0.1%；

Fe surpluses.

2. a kind of solid calcium metal according to claim 1 and containing rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder be combined Core-spun yarn, it is characterised in that containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder by mass percentage by elements below component Constitute：

Al 1.5 ~ 2.0%,

N 15 ~ 20%,

Mn 3.0 ~ 4.0%,

Mg 1.5 ~ 2.0%,

Ti 30 ~ 35%,

Si 30 ~ 35%,

Nb 0.5 ~ 1.0%,

V 0.5 ~ 1.0%,

B 0.5 ~ 1.0%,

Rare earth element 1.0 ~ 2.0%,

P ≤0.1%

S ≤0.1%；

Fe surpluses.

3. a kind of solid calcium metal according to claim 1 and 2 and multiple containing rare earth, niobium, vanadium, boron titanium silicon nitride alloyed powder Close core-spun yarn, it is characterised in that the granularity containing rare earth, niobium, vanadium, boron titanium silicon nitride alloy powder is 0.1 ~ 2.0mm.