CN107955917A - Steel wire rod and its LF stove production methods are built containing V, Ti, Cr microalloy - Google Patents

Abstract

The invention belongs to field of steel metallurgy, and in particular to one kind is containing V, Ti, Cr microalloy building steel wire rod and its LF stove production methods.The problems such as alloy of vanadium nitride nitrogen content is low, species is few is prepared selected by nitrogen-containing alloy steel for existing, the present invention provides one kind containing V, Ti, Cr microalloy building steel wire rod and its LF stove production methods.The constituent of the wire rod is：By weight percentage, C：0.15~0.30%, Si：0.30~1.00%, Mn：0.60~1.30%, N：0.0060~0.0180%, P≤0.040%, S≤0.040%, V：0.010~0.100%, Ti：0.010~0.030%, Cr：0.10~0.60%, surplus is Fe and inevitable impurity.The key of its preparation method adjusts N to suitable level in feeding core-spun yarn containing N in LF stoves.The method of the present invention is easy to operate, and nitrogen recovery rate is high and stablizes, moreover it is possible to effectively reduces production cost, is worth of widely use.

Description

Steel wire rod and its LF stove production methods are built containing V, Ti, Cr microalloy

Technical field

The invention belongs to field of steel metallurgy, and in particular to one kind is containing V, Ti, Cr microalloy building steel wire rod and its LF stoves Production method.

Background technology

Micro alloyed steel is primarily referred to as adding certain either micro element of minimal amount in steel with regard to that can significantly improve performance Steel, particularly improve steel intensity index.It is either micro- mainly usually to add minimal amount for micro alloyed steel under the conditions of the prior art Measure vanadium, niobium and titanium and obtain.The mechanism of action of microalloying is：After vanadium, niobium and titanium as trace element add molten steel, with steel Carbon and nitrogen in liquid combine, and form carbon, nitrogen compound particle, i.e. V (C, N), Nb (C, N) and Ti (C, N) particle, these particles There is certain precipitation strength and crystal grain refinement, the intensity of steel can be significantly improved.

It will thus be seen that the effect of vanadium, niobium and titanium is, but ordinary circumstance inseparable with nitrogen actually in micro alloyed steel Lower to use converter smelting steel, residual nitrogen content is in the range of 0.0030%~0.065%, and using electric furnace smelting steel, residual nitrogen contains Amount in most cases will such as give full play to the effect of vanadium, niobium and titanium, be to have to volume in the range of 0.050%~0.085% It is outer to add what nitrogen be realized.

Early stage increases nitrogen in micro alloyed steel, is realized by the nitridation class alloy of addition 3%~6%, but due to It is nitrogenous very low to nitrogenize class alloy, causes alloy addition big, and recovery rate is unstable, is gradually closed by the higher vanadium nitride of nitrogen content Jin Dynasty is replaced.At present almost it is difficult to reuse 3%~6% nitridation class alloy, almost all was using both in the production of micro alloyed steel Containing vanadium and nitrogen content and high alloy of vanadium nitride.Alloy of vanadium nitride mainly has tri- trades mark of VN12, VN14 and VN16.Ordinary circumstance The ratio of lower three trade mark nitrogen and vanadium is substantially stationary, be respectively 12 ︰ 78,14 ︰ 78,16 ︰ 78, the i.e. ratio of nitrogen and vanadium most 16 ︰ 78 of a height of VN16, i.e., containing 16% N in alloy, contain 78% vanadium.Although alloy of vanadium nitride both contains vanadium and nitrogen content It is again high, but for micro-alloying technology route different in micro alloyed steel, composite micro-alloyed steel, such as V-Ti-N are particularly, very As for V-Ti-Nb-N, and it is unable to meet demand.

The content of the invention

The problems such as alloy of vanadium nitride nitrogen content is low, species is few is prepared selected by nitrogen-containing alloy steel for existing, and the present invention carries A kind of new method for preparing nitrogen-containing alloy is supplied.This method adjusts nitrogen content in microalloy, energy using nitrogenous core-spun yarn is added Enough N contents being more accurately controlled in steel, the micro alloyed steel nitrogen recovery rate of preparation is high, and cost is low.

First technical problem to be solved by this invention is to provide a kind of containing V, Ti, Cr microalloy building steel wire rod.Should Containing V, Ti, Cr microalloy building steel wire rod chemical composition be：By weight percentage, C：0.15~0.30%, Si：0.30~ 1.00%th, Mn：0.60~1.30%, N：0.0060~0.0180%, P≤0.040%, S≤0.040%, V：0.010~ 0.100%th, Ti：0.010~0.030%, Cr：0.10~0.60%, surplus is Fe and inevitable impurity.

Present invention also offers a kind of LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy.The production Method comprises the following steps：

It is blast-melted that steel billet is made through converter smelting, the refining of LF stoves, continuous casting；Steel billet is heated, high-speed rod-rolling mill carries out Rolling becomes a useful person, cools down pole wire rod or screw wire rod is made；Wherein, core-spun yarn adjustment N is fed after the refining of LF stoves in ladle to contain Amount；The steel billet component is C by weight percentage：0.15~0.30%, Si：0.30~1.00%, Mn：0.60~ 1.30%th, N：0.0060~0.0180%, P≤0.040%, S≤0.040%, V：0.010~0.100%, Ti：0.010~ 0.030%th, Cr：0.10~0.60%, surplus is Fe and inevitable impurity；Billet heating temperature control for 950~ 1220 DEG C, soaking temperature control is 1000~1200 DEG C, heating and 90~120min of soaking total time；The high-speed rod-rolling mill In Laying head process, control laying temperature be 880~960 degree；It is described be cooled to it is cold with the cooling velocity of 4~8 DEG C/s first But to 600~700 DEG C, 400~500 DEG C then are cooled to the cooling velocity of 2~3 DEG C/s, finally with 0.5~1.0 DEG C/s's Cooling velocity is cooled to 150~300 DEG C.

Further, the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, comprise the following steps：

A, converter smelting：Molten iron and steel scrap are added in converter, C is taken off using Converter Oxigen Blowing, is smelted, treat that molten steel C contains Measure as 0.05~0.15%, P content≤0.025%, S content≤0.035%, whens liquid steel temperature >=1650 DEG C taps；

During tapping 1/3~2/3, FeSi, FeMn, FeCr and FeV or VN alloys are added, and increases C agent, it is 0.15 to control C ~0.30%, Si for 0.30~1.00%, Mn is 0.60~1.30%, V is 0.010~0.100%, Cr be 0.10~ 0.60%；

B, core-spun yarn is fed：It is transferred to ladle after tapping, ladle is reached after stove after chain-wales, and inert gas is blown into ladle； After steel ladle reaches LF stoves, FeTi alloys are added, it is 0.010~0.030% to control Ti, adds core-spun yarn containing N, is controlled in molten steel N content is 0.0060~0.0180%；

C, continuous casting：It is 20~50 DEG C to control the degree of superheat wrapped in conticaster, and the steel billet section that molten steel is casting continuously to form is 150mm The square billet of × 150mm~200mm × 200mm, is air-cooled to room temperature；

D, heating steel billet and rolling：Billet heating temperature control is 950~1220 DEG C, soaking temperature control for 1000~ 1200 DEG C, heating with 90~120min of soaking total time, pole wire rod or screw wire rod are rolled into using high-speed rod-rolling mill, rolled System terminates postcooling up to product；Wherein, the Laying head process in the high-speed rod-rolling mill, control laying temperature for 880~ 960℃；It is described to be cooled to be cooled to 600~700 DEG C first with the cooling velocity of 4~8 DEG C/s, then with the cooling of 2~3 DEG C/s Speed is cooled to 400~500 DEG C, is finally cooled to 150~300 DEG C with the cooling velocity of 0.5~1.0 DEG C/s.

Wherein, in the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, molten iron described in step a will Seek S content≤0.06%.

Wherein, it is above-mentioned containing V, Ti, Cr microalloy building steel wire rod LF stove production methods in, FeSi described in step a and FeMn alloys FeSiMn alloy replacings.

Wherein, in the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, the inertia described in step b Gas is at least one of argon gas or nitrogen.

Wherein, in the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, it is blown into described in step b lazy Time >=2min of property gas.

Wherein, in the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, step b electrical heating temperatures are high In 60~90 DEG C of liquidus temperature.

Wherein, in the LF stove production methods of the above-mentioned building steel wire rod containing V, Ti, Cr microalloy, pole disk described in step d The specification of bar or screw wire rod for building is

The present invention adds alloying component V by designing a kind of microalloy building iron containing V, Ti, Cr in steel：0.010~ 0.100%, Ti：0.010~0.030%, Cr：0.10%~0.60%, then coordinate and fed using after the refining of LF stoves in ladle The mode of the core-spun yarn containing N adjusts N content in steel, and coordinates and rolled using high speed wire rolling production line, controls suitable laying temperature With the parameter such as cooldown rate, it can finally be prepared that a kind of intensity is high, nitrogen recovery rate is high builds containing V, Ti, Cr microalloy Steel, function admirable.The method of the present invention is easy to operate, and nitrogen recovery rate is high and stablizes, moreover it is possible to effectively reduces production cost, is worth pushing away It is wide to use.

Embodiment

It is containing V, Ti, Cr microalloy building steel wire rod, its chemical composition the present invention provides one kind：By weight percentage Meter, C：0.15%~0.30%, Si：0.30%~1.00%, Mn：0.60%~1.30%, N：0.0060%~0.0180%, P≤0.040%, S≤0.040%, V：0.010%~0.100%, Ti：0.010%~0.030%, Cr：0.10%~ 0.60%, surplus is Fe and inevitable impurity.

In above-mentioned chemical composition, containing 0.0060%~0.0180% nitrogen in steel, using add 0.010%~ 0.100%V and 0.010%~0.030%Ti is to being fixed, to ensure the aging performance of steel.Converter is used under normal circumstances Method smelting steel, the residual nitrogen content in final finished steel are residual using electric furnace smelting steel in the range of 0.0030%~0.0065% Stay nitrogen content then in the range of 0.0050%~0.0085%.Higher nitrogen content, timeliness are deteriorated therewith in steel, therefore work as nitrogen Content is higher than 0.006%, and with the increase of nitrogen content, it is necessary to and add suitable nitrogen killer and fixed, it is of the invention then use The mode of 0.010%~0.100%V and 0.010%~0.030%Ti is added, to ensure the timeliness of steel, while can also be filled The solution strengthening effect of nitrogen is waved in distribution, so as to improve the intensity of steel, reduces the cost of alloy of steel.

In addition, in above-mentioned chemical composition, because the nitrogen content in molten steel is higher than residual nitrogen content in usual steel, vanadium and titanium plus Enter and be also more prone to form V (C, N) and Ti (C, N) particle, so as to promote the precipitation of vanadium and titanium, can more fully play The precipitation strength and Grain Refinement Effect of vanadium and titanium, to improve the comprehensive mechanical property of steel, on the premise of equal mechanical property, The usage amount of vanadium and titanium can be reduced.

In above-mentioned chemical composition, 0.10%~0.60%Cr is the essential element for improving steel hardenability, and makes base steel table Face forms the rusty scale of densification, slows down the corrosion of air or other corrosive mediums to weather-proof steel matrix, so as to improve weathering steel Weatherability.Therefore add 0.10%~0.60%Cr and two beneficial effects are generated to construction(al)steel, be to add first 0.10%~0.60%Cr can make the centre grain size of the construction(al)steel of big specification reach unanimity in edge, secondly adding The construction(al)steel of 0.10%~0.60%Cr, even if being stored in for a long time in open-air atmosphere, causes corrosion to lose weight by air Quantity be also less than without Cr construction(al)steels.

Present invention also offers prepare above-mentioned V, Ti, Cr microalloy building steel wire rod bof process technique：Converter smelting → LF refining+feeding core-spun yarn → is casting continuously to form steel billet → heating steel billet → high-speed wire rolling production line rolling and becomes a useful person.In detail below Narration bof process technology of the present invention：

The first step：Converter smelting

Molten iron and steel scrap are added first in converter, it is desirable to which the molten iron S contents of addition are not more than 0.060%.Molten iron and useless After steel adds converter, the function of C is taken off using Converter Oxigen Blowing, molten iron and steel scrap are just smelt molten steel, arrived when molten steel composition just refines 0.05%~0.15% C, P is no more than 0.025%, S is not more than 0.035%, and when tapping temperature is not less than 1650 DEG C taps Into ladle.

The FeSi alloys containing Si elements, the FeMn alloys containing Mn elements, the conjunction containing V element are added in tapping process Gold, and carbon dust or anthracite etc. increase C agent, and control C is in the range of 0.15%~0.30%, control Si is 0.30%~1.00% In the range of, Mn is in the range of 0.60%~1.30% for control, and Cr is in the range of 0.10%~0.60% for control, and control V exists In the range of 0.010%~0.100%.Require in addition that, being initially added into FeSi, FeMn, FeCr, FeV or VN in tapping 1/3 closes Gold, and carbon dust or anthracite etc. increase C agent, and tapping to when 2/3 to add.

In the addition of above-mentioned alloy, also FeSi and FeMn alloys can be replaced using the FeSiMn alloys containing Si and Mn.

Second step：Inert gas is blown into after Converter

After the completion of tapping, steel ladle immediately accesses pipeline, and the molten steel into ladle is blown into inert gas, the inertia being blown into Gas can be argon gas or nitrogen, be blown into the time of inert gas and should be not less than 2min.Regulation inert gas is blown into Time is that all kinds of alloys that can make addition in order to ensure that molten steel has enough circulation time fully melt and not less than 2min It is even.

3rd step：LF stove heats

After steel ladle reaches LF stoves, it is electrically heated, electrical heating temperature control range is higher than liquidus temperature 60~90 DEG C, after reaching requirement temperature, sampling carries out N content in molten steel and detects, and adds FeTi alloys, control Ti 0.010%~ In the range of 0.030%；Core-spun yarn containing N is then added using the method for line feeding according to the testing result of N content in molten steel, controls steel N content is in the range of 0.0060%~0.0180% in liquid, can if N content control is relatively stable in molten steel after LF stove heats Do not sample and carry out N content detection, be fed directly into core-spun yarn.The core-spun yarn is nitrogen-containing alloy, such as SiN.

Before feeding core-spun yarn, steel ladle need to connect the pipeline for being blown into inert gas again, and be blown into ability after inert gas The core-spun yarn containing N is fed, inert gas can be argon gas or nitrogen, when being blown into inert gas after the completion of line feeding Between also need extend 2min, to ensure the uniformity of Ti and N element in molten steel.

4th step：It is casting continuously to form steel billet

It is 20~50 DEG C to control the degree of superheat wrapped in conticaster, which is by outbound temperature after above-mentioned converter tapping and stove Degree controls to realize.

The steel billet section that molten steel is casting continuously to form be 150mm × 150mm~200mm × 200mm square billet, less than 150mm × The square billet section of 150mm is small to be unfavorable for working continuously for bof process, and the square billet section more than 200mm × 200mm can then extend Heating time during follow-up rolling steel billet.

The steel billet that molten steel is casting continuously to form, naturally cools to room temperature in atmosphere.

5th step：Heating steel billet and rolling

Heating requirements total heating time of steel billet is 90~120min, and billet heating temperature control is 950~1220 DEG C, Hot temperature control is 1000~1200 DEG C.

Roughing temperature, entry temperature at finishing in the high-speed rod-rolling mill operation of rolling, exit temperature at finishing, deflection, roll The inferior parameter in road processed can be set out, but it has to be ensured that finally spit according to appointed condition and rolling speed using routine techniques The laying temperature of silk machine spinning process, the pole wire rod steel to be spued or Ribbed Bar wire rod steel is controlled in 880~960 DEG C of scopes It is interior.

After Laying head has spat after silk pole wire rod steel or Ribbed Bar wire rod steel, first with the cooling velocity of 4 DEG C~8 DEG C/s It is cooled in the range of 600 DEG C~700 DEG C, is then cooled to the cooling velocity of 2 DEG C~3 DEG C/s in the range of 400 DEG C~500 DEG C, The collection collection volume that steel is carried out after 150 DEG C~300 DEG C scopes is finally cooled to the cooling velocity of 0.5 DEG C~1.0 DEG C/s, is finally used Steel band or steel wire bundling are into the finished product wire rod steel for being readily transported and selling).

Finally illustrate：Final diameter isPole wire rod, or have and GB The Ribbed Bar of defined is a diameter of in 1499.2Construction(al)steel wire rod, can use high-speed line Material milling train is rolled.

Explanation will be further explained to the embodiment of the present invention by embodiment below, but do not indicated that this The protection domain of invention is limited in described in embodiment in scope.

Embodiment 1

Certain steel plant is on 120 tons of (actual tap is in the range of 120~140 tons) bof processes of nominal capacity using this Inventive technique produces Ribbed Bar for building, and production technology is to be blown into inert gas → LF stove heat → 6 after converter smelting → stove Machine 6 flow billet caster be cast into 150mm × 150mm steel billets → heating steel billet → high-speed wire rolling intoBand rib steel Muscle.

120 tons of molten iron and 20 tons of steel scraps are added first in converter, the molten iron S contents of addition are less than 0.060%.Molten iron and After steel scrap adds converter, the function of C is taken off using Converter Oxigen Blowing, molten iron and steel scrap are just smelt molten steel, arrived when molten steel composition just refines 0.09% C, 0.019% P, 0.024% S, tapping is into ladle when temperature is 1678 DEG C, and actual tap is at this time 131 tons (about 5% raw material is burnt in converter steelmaking process).In tapping process into molten steel add FeSi, FeMn, FeCr, FeV alloys and anthracite carry out Si, Mn, Cr, V and C element alloying, wherein Si contents are 74% in the FeSi alloys added, Mn contents are that V content is 78% in 82%, FeV alloys in FeMn alloys, and it is 92% that C is fixed in anthracite, controls Si in molten steel Content is 0.24%, Mn contents are 0.63%, Cr contents are 0.10%, V content 0.010%, C content 0.15%.

After molten steel arrival stove after chain-wales, steel ladle immediately accesses pipeline, and the molten steel into ladle is blown into nitrogen, is blown into nitrogen 4~5min of gas, makes all kinds of alloys of addition fully melt and uniformly.

Molten steel is electrically heated after reaching LF stoves, and liquid steel temperature adds FeTi alloys when reaching 1682 DEG C, controls in firm water Ti contents are 40% in 0.011% Ti, FeTi alloy.Core-spun yarn containing N is then added using the method for line feeding, is controlled in molten steel N content is 0.0063%.

Before feeding core-spun yarn, steel ladle need to connect the pipeline for being blown into inert gas again, and be blown into nitrogen, when line feeding is completed Extend afterwards and be blown into nitrogen time 2min, to ensure the uniformity of N element in molten steel.Molten steel then is sent to conticaster to be poured Casting.

150mm × 150mm strands are cast on 6 machines 6 stream billet caster, tundish temperature is 1548 DEG C during continuous casting, The liquidus temperature of steel is 1515 DEG C, bag sampling analysis molten steel chemical constituent is 0.16% in conticaster C, 0.31% Si, 0.64% Mn, 0.10% Cr, 0.010% V, 0.010% Ti, 0.025% P, 0.021% S, 0.0064% N, remaining is Fe and inevitable other impurity.Casting blank stacking cooled to room temperature.

Sent after slab cooling to high-speed wire rolling production line and heated, rolled, rolling specs areIt is with ribbing Reinforcing bar.Slab heating temperature is 957 DEG C, and soaking temperature is 1008 DEG C, and total heating time, which reaches to come out of the stove after 116min, to be rolled.

It is corresponding to adjust roughing and finish rolling using final adjustment laying temperature as 880 DEG C for target in high-speed rod-rolling mill rolling The parameters such as temperature.

After Laying head has spat after silk pole wire rod steel or Ribbed Bar wire rod steel, cooled down first with the cooling velocity of 4 DEG C/s To 605 DEG C, 400 DEG C then are cooled to the cooling velocity of 2 DEG C/s, after being finally cooled to 150 DEG C with the cooling velocity of 1.0 DEG C/s The collection collection volume of steel is carried out, finally with steel band or steel wire bundling into the finished product wire rod steel for being readily transported and selling.

The mechanical properties test result of steel is：ReL (Rp0.2) is 328MPa, tensile strength 476MPa, elongation are 35.7%th, maximum, force percentage of total elongation is 18.3%.180 DEG C of clod wash qualifications.The tissue of steel is ferrite+pearlite.

Using the compared steel of preparation identical with above-mentioned preparation process, C that the chemical constituent after preparation is 0.16%, 0.32% Si, 0.64% Mn, 0.011% V, 0.010% Ti, 0.024% P, 0.028% S, 0.0066% N, 0.03% Cr, remaining is Fe and inevitable other impurity, and specification isRibbed Bar.Examine compared steel Mechanical property is：ReL (Rp0.2) is 321MPa, tensile strength 463MPa, elongation 36.4%, maximum, force percentage of total elongation For 19.1%, 180 DEG C of clod wash qualifications, the tissue of steel is ferrite+pearlite.

Compared steel and steel of the present invention are subjected to corrosion test under conditions of table 1, the average weight-loss ratio of steel of the present invention is 2.433g/m², the average weight-loss ratio of compared steel is 2.497g/m², steel of the present invention is relative to the relatively corrosive rate of compared steel 97.4%, corrosion test shows that steel of the present invention has certain corrosion resistance.

1 corrosion resisting property inspection result of table

Embodiment 2

Certain steel plant is on 120 tons of (actual tap is in the range of 120~140 tons) bof processes of nominal capacity using this Inventive technique produces Ribbed Bar for building, and production technology is to be blown into inert gas → LF stove heat → 6 after converter smelting → stove Machine 6 flow billet caster be cast into 150mm × 150mm steel billets → heating steel billet → high-speed wire rolling intoBand rib steel Muscle.

120 tons of molten iron and 20 tons of steel scraps are added first in converter, the molten iron S contents of addition are less than 0.060%.Molten iron and After steel scrap adds converter, the function of C is taken off using Converter Oxigen Blowing, molten iron and steel scrap are just smelt molten steel, arrived when molten steel composition just refines 0.14% C, 0.025% P, 0.018% S, tapping is into ladle when temperature is 1679 DEG C, and actual tap is at this time 134 tons (about 5% raw material is burnt in converter steelmaking process).In tapping process into molten steel add FeSi, FeMn, FeCr, FeV alloys and anthracite carry out Si, Mn, Cr, V and C element alloying, wherein Si contents are 74% in the FeSi alloys added, Mn contents are that Cr contents are that V content is 78% in 54%, FeV alloys in 82%, FeCr alloys in FeMn alloys, solid in anthracite C is determined for 92%, controls in molten steel that Si contents are 0.95%, Mn contents are 1.25%, Cr contents are 0.30%, V content is 0.098%th, C content 0.30%.

After molten steel arrival stove after chain-wales, steel ladle immediately accesses pipeline, and the molten steel into ladle is blown into nitrogen, is blown into nitrogen 4~5min of gas, makes all kinds of alloys of addition fully melt and uniformly.

Molten steel is electrically heated after reaching LF stoves, and liquid steel temperature adds FeTi alloys when reaching 1668 DEG C, controls in firm water Ti contents are 40% in 0.030% Ti, FeTi alloy.Core-spun yarn containing N is then added using the method for line feeding, is controlled in molten steel N content is 0.0168%.

Before feeding core-spun yarn, steel ladle need to connect the pipeline for being blown into inert gas again, and be blown into nitrogen, when line feeding is completed Extend afterwards and be blown into nitrogen time 2min, to ensure the uniformity of N element in molten steel.Molten steel then is sent to conticaster to be poured Casting.

150mm × 150mm strands are cast on 6 machines 6 stream billet caster, tundish temperature is 1522 DEG C during continuous casting, The liquidus temperature of steel is 1495 DEG C, bag sampling analysis molten steel chemical constituent is 0.30% in conticaster C, 0.98% Si, 1.29% Mn, 0.30% Cr, 0.100% V, 0.030% Ti, 0.022% P, 0.028% S, 0.0177% N, remaining is Fe and inevitable other impurity.Casting blank stacking cooled to room temperature.

Sent after slab cooling to high-speed wire rolling production line and heated, rolled, rolling specs areBand Rib reinforcement.Slab heating temperature is 1211 DEG C, and soaking temperature is 1191 DEG C, and total heating time, which reaches to come out of the stove after 94min, is rolled System.

It is corresponding to adjust roughing and finish rolling using final adjustment laying temperature as 880 DEG C for target in high-speed rod-rolling mill rolling The parameters such as temperature.

After Laying head has spat after silk pole wire rod steel or Ribbed Bar wire rod steel, cooled down first with the cooling velocity of 4 DEG C/s To 605 DEG C, 400 DEG C then are cooled to the cooling velocity of 2 DEG C/s, after being finally cooled to 150 DEG C with the cooling velocity of 1.0 DEG C/s The collection collection volume of steel is carried out, finally with steel band or steel wire bundling into the finished product wire rod steel for being readily transported and selling.

The mechanical properties test result of steel is：ReL (Rp0.2) is 501MPa, tensile strength 675MPa, elongation are 23.2%th, maximum, force percentage of total elongation is 14.4%, 180 DEG C of clod wash qualifications.The tissue of steel is ferrite+pearlite.

With the compared steel of preparation identical with above-mentioned preparation process, C that the chemical constituent after preparation is 0.30%, 0.96% Si, 1.30% Mn, 0.099% V, 0.030% Ti, 0.027% P, 0.023% S, 0.0176% N, 0.03% Cr, remaining is Fe and inevitable other impurity, and specification isRibbed Bar.Examine compared steel Mechanical property is：ReL (Rp0.2) is 487MPa, tensile strength 672MPa, elongation 23.1%, maximum, force percentage of total elongation For 14.9%, 180 DEG C of clod wash qualifications, the tissue of steel is ferrite+pearlite.

Compared steel and steel of the present invention are subjected to corrosion test under conditions of table 2, the average weight-loss ratio of steel of the present invention is 2.412g/m², the average weight-loss ratio of compared steel is 2.501g/m², steel of the present invention is relative to the relatively corrosive rate of compared steel 96.4%, corrosion test shows that steel of the present invention has certain corrosion resistance.

2 corrosion resisting property inspection result of table

Embodiment 3

Certain steel plant is on 120 tons of (actual tap is in the range of 120~140 tons) bof processes of nominal capacity using this Inventive technique produces Ribbed Bar for building, and production technology is to be blown into inert gas → LF stove heat → 6 after converter smelting → stove Machine 6 flow billet caster be cast into 200mm × 200mm steel billets → heating steel billet → high-speed wire rolling intoBand rib steel Muscle.

120 tons of molten iron and 20 tons of steel scraps are added first in converter, the molten iron S contents of addition are less than 0.060%.Molten iron and After steel scrap adds converter, the function of C is taken off using Converter Oxigen Blowing, molten iron and steel scrap are just smelt molten steel, arrived when molten steel composition just refines 0.07% C, 0.023% P, 0.020% S, tapping is into ladle when temperature is 1686 DEG C, and actual tap is at this time 133 tons (about 5% raw material is burnt in converter steelmaking process).In tapping process into molten steel add FeSi, FeMn, FeCr, FeV alloys and anthracite carry out Si, Mn, Cr, V and C element alloying, wherein Si contents are 74% in the FeSi alloys added, Mn contents are that Cr contents are that V content is 78% in 54%, FeV alloys in 82%, FeCr alloys in FeMn alloys, solid in anthracite C is determined for 92%, controls in molten steel that Si contents are 0.59%, Mn contents are 0.95%, Cr contents are 0.58%, V content is 0.055%th, C content 0.25%.

After molten steel arrival stove after chain-wales, steel ladle immediately accesses pipeline, and the molten steel into ladle is blown into nitrogen, is blown into nitrogen 4~5min of gas, makes all kinds of alloys of addition fully melt and uniformly.

Molten steel is electrically heated after reaching LF stoves, and liquid steel temperature adds FeTi alloys when reaching 1675 DEG C, controls in firm water Ti contents are 40% in 0.017% Ti, FeTi alloy.Core-spun yarn containing N is then added using the method for line feeding, is controlled in molten steel N content is 0.0124%.

Before feeding core-spun yarn, steel ladle need to connect the pipeline for being blown into inert gas again, and be blown into nitrogen, when line feeding is completed Extend afterwards and be blown into nitrogen time 2min, to ensure the uniformity of N element in molten steel.Molten steel then is sent to conticaster to be poured Casting.

200mm × 200mm strands are cast on 6 machines 6 stream billet caster, tundish temperature is 1536 DEG C during continuous casting, The liquidus temperature of steel is 1505 DEG C, bag sampling analysis molten steel chemical constituent is 0.26% in conticaster C, 0.63% Si, 0.98% Mn, 0.57% Cr, 0.040% V, 0.020% Ti, 0.029% P, 0.021% S, 0.0128% N, remaining is Fe and inevitable other impurity.Casting blank stacking cooled to room temperature.

Sent after slab cooling to high-speed wire rolling production line and heated, rolled, rolling specs areIt is with ribbing Reinforcing bar.Slab heating temperature is 1124 DEG C, and soaking temperature is 1074 DEG C, and total heating time, which reaches to come out of the stove after 99min, to be rolled,

It is corresponding to adjust roughing and finish rolling using final adjustment laying temperature as 920 DEG C for target in high-speed rod-rolling mill rolling The parameters such as temperature.

After Laying head has spat after silk pole wire rod steel or Ribbed Bar wire rod steel, cooled down first with the cooling velocity of 6 DEG C/s To 695 DEG C, 500 DEG C then are cooled to the cooling velocity of 2.5 DEG C/s, is finally cooled to 300 with the cooling velocity of 0.75 DEG C/s The collection collection volume of steel is carried out after DEG C, finally with steel band or steel wire bundling into the finished product wire rod steel for being readily transported and selling.

The mechanical properties test result of steel is：ReL (Rp0.2) be ReL (Rp0.2) be 473MPa, tensile strength be 666MPa, elongation 23.5%, maximum, force percentage of total elongation are 16.4%, 180 DEG C of clod wash qualifications.The tissue of steel is ferrite + pearlite.

Using the compared steel of preparation identical with above-mentioned preparation process, C that the chemical constituent after preparation is 0.24%, 0.64% Si, 0.99% Mn, 0.046% V, 0.020% Ti, 0.027% P, 0.025% S, 0.03% Cr, 0.0133% N, remaining is Fe and inevitable other impurity, and specification isRibbed Bar.Examine compared steel Mechanical property be：ReL (Rp0.2) is 451MPa, tensile strength 633MPa, elongation 24.2%, maximum, force general extension Rate is 16.4%, 180 DEG C of clod wash qualifications, and the tissue of steel is ferrite+pearlite.

Compared steel and steel of the present invention are subjected to corrosion test under conditions of table 3, the average weight-loss ratio of steel of the present invention is 2.317g/m², the average weight-loss ratio of compared steel is 2.507g/m², steel of the present invention is relative to the relatively corrosive rate of compared steel 92.4%, corrosion test shows that steel of the present invention has certain corrosion resistance.

3 corrosion resisting property inspection result of table

Embodiment 4

Certain steel plant is on 120 tons of (actual tap is in the range of 120~140 tons) bof processes of nominal capacity using this Inventive technique produces pole for building, and production technology is to be blown into the machine 6 of inert gas → LF stove heats → 6 after converter smelting → stove to flow Billet caster be cast into 150mm × 150mm steel billets → heating steel billet → high-speed wire rolling intoPole.

120 tons of molten iron and 20 tons of steel scraps are added first in converter, the molten iron S contents of addition are less than 0.060%.Molten iron and After steel scrap adds converter, the function of C is taken off using Converter Oxigen Blowing, molten iron and steel scrap are just smelt molten steel, arrived when molten steel composition just refines 0.05% C, 0.025% P, 0.024% S, tapping is into ladle when temperature is 1686 DEG C, and actual tap is at this time 133 tons (about 5% raw material is burnt in converter steelmaking process).In tapping process into molten steel add FeSi, FeMn, FeCr, FeV alloys and anthracite carry out Si, Mn, Cr, V and C element alloying, wherein Si contents are 74% in the FeSi alloys added, Mn contents are that Cr contents are that V content is 78% in 54%, FeV alloys in 82%, FeCr alloys in FeMn alloys, solid in anthracite C is determined for 92%, controls in molten steel that Si contents are 0.54%, Mn contents are 0.95%, Cr contents are 0.41%, V content is 0.030%th, C content 0.16%.

After molten steel arrival stove after chain-wales, steel ladle immediately accesses pipeline, and the molten steel into ladle is blown into nitrogen, is blown into nitrogen 4~5min of gas, makes all kinds of alloys of addition fully melt and uniformly.

Molten steel is electrically heated after reaching LF stoves, and liquid steel temperature adds FeTi alloys when reaching 1676 DEG C, controls in firm water Ti contents are 40% in 0.017% Ti, FeTi alloy.Core-spun yarn containing N is then added using the method for line feeding, is controlled in molten steel N content is 0.089%.

Before feeding core-spun yarn, steel ladle need to connect the pipeline for being blown into inert gas again, and be blown into nitrogen, when line feeding is completed Extend afterwards and be blown into nitrogen time 2min, to ensure the uniformity of N element in molten steel.Molten steel then is sent to conticaster to be poured Casting.

150mm × 150mm strands are cast on 6 machines 6 stream billet caster, tundish temperature is 1540 DEG C during continuous casting, The liquidus temperature of steel is 1505 DEG C, bag sampling analysis molten steel chemical constituent is 0.16% in conticaster C, 0.57% Si, 0.96% Mn, 0.41% Cr, 0.030% V, 0.016% Ti, 0.019% P, 0.021% S, 0.093% N, remaining is Fe and inevitable other impurity.Casting blank stacking cooled to room temperature.

Sent after slab cooling to high-speed wire rolling production line and heated, rolled, rolling specs arePole Reinforcing bar.Slab heating temperature is 1141 DEG C, and soaking temperature is 1075 DEG C, and total heating time, which reaches to come out of the stove after 97min, to be rolled.

It is corresponding to adjust roughing and finish rolling using final adjustment laying temperature as 910 DEG C for target in high-speed rod-rolling mill rolling The parameters such as temperature.

After Laying head has spat after silk pole wire rod steel or Ribbed Bar wire rod steel, cooled down first with the cooling velocity of 5 DEG C/s To 680 DEG C, 460 DEG C then are cooled to the cooling velocity of 2.5 DEG C/s, is finally cooled to 250 with the cooling velocity of 0.75 DEG C/s The collection collection volume of steel is carried out after DEG C, finally with steel band or steel wire bundling into the finished product wire rod steel for being readily transported and selling.

The mechanical properties test result of steel is：ReL (Rp0.2) is 423MPa, tensile strength 606MPa, elongation are 28.9%th, maximum, force percentage of total elongation is 18.2%, 180 DEG C of clod wash qualifications.The tissue of steel is ferrite+pearlite.

Using the compared steel of preparation identical with above-mentioned preparation process, C that the chemical constituent after preparation is 0.15%, 0.60% Si, 0.99% Mn, 0.030% V, 0.017 Ti, 0.024% P, 0.021% S, 0.0091% N, 0.03% Cr, remaining is Fe and inevitable other impurity, and specification isPole reinforcing bar.Examine the power of compared steel Learning performance is：ReL (Rp0.2) is 406MPa, tensile strength 597MPa, elongation 29.3%, and maximum, force percentage of total elongation is 18.8%, 180 DEG C of clod wash qualifications, the tissue of steel is ferrite+pearlite.

Compared steel and steel of the present invention are subjected to corrosion test under conditions of table 4, the average weight-loss ratio of steel of the present invention is 2.437g/m², the average weight-loss ratio of compared steel is 2.508g/m², steel of the present invention is relative to the relatively corrosive rate of compared steel 97.2%, corrosion test shows that steel of the present invention has certain corrosion resistance.

4 corrosion resisting property inspection result of table

Claims (9)

1. containing V, Ti, Cr microalloy building steel wire rod, it is characterised in that：Chemical composition is：By weight percentage, C：0.15~ 0.30%th, Si：0.30~1.00%, Mn：0.60~1.30%, N：0.0060~0.0180%, P≤0.040%, S≤ 0.040%th, V：0.010~0.100%, Ti：0.010~0.030%, Cr：0.10~0.60%, surplus is for Fe and unavoidably Impurity.

2. the LF stove production methods of the building steel wire rod containing V, Ti, Cr microalloy described in claim 1, it is characterised in that：Including Following steps：

It is blast-melted that steel billet is made through converter smelting, the refining of LF stoves, continuous casting；Steel billet is heated, high-speed rod-rolling mill is rolled Become a useful person, cool down pole wire rod or screw wire rod is made；Wherein, core-spun yarn adjustment N content is fed after the refining of LF stoves in ladle；Institute It is C by weight percentage to state steel billet component：0.15~0.30%, Si：0.30~1.00%, Mn：0.60~1.30%, N： 0.0060~0.0180%, P≤0.040%, S≤0.040%, V：0.010~0.100%, Ti：0.010~0.030%, Cr： 0.10~0.60%, surplus is Fe and inevitable impurity；The billet heating temperature control is 950~1220 DEG C, soaking Temperature control is 1000~1200 DEG C, heating and 90~120min of soaking total time；Laying head in the high-speed rod-rolling mill Process, it is 880~960 DEG C to control laying temperature；It is described be cooled to be cooled to 600 first with the cooling velocity of 4~8 DEG C/s~ 700 DEG C, 400~500 DEG C then are cooled to the cooling velocity of 2~3 DEG C/s, it is finally cold with the cooling velocity of 0.5~1.0 DEG C/s But to 150~300 DEG C.

3. the LF stove production methods of the building steel wire rod according to claim 2 containing V, Ti, Cr microalloy, it is characterised in that： Comprise the following steps：

A, converter smelting：Molten iron and steel scrap are added in converter, C is taken off using Converter Oxigen Blowing, is smelted, treat that molten steel C content is 0.05~0.15%, P content≤0.025%, S content≤0.035%, whens liquid steel temperature >=1650 DEG C, tap；

During tapping 1/3~2/3, add FeSi, FeMn, FeCr and FeV or VN alloys, and increase C agent, control C be 0.15~ 0.30%th, Si for 0.30~1.00%, Mn be 0.60~1.30%, V is 0.010~0.100%, Cr is 0.10~0.60%；

B, core-spun yarn is fed：It is transferred to ladle after tapping, ladle is reached after stove after chain-wales, and inert gas is blown into ladle；Molten steel After bag reaches LF stoves, FeTi alloys are added, it is 0.010~0.030% to control Ti, adds core-spun yarn containing N, controls N in molten steel to contain Measure as 0.0060~0.0180%；

C, continuous casting：It is 20~50 DEG C to control the degree of superheat wrapped in conticaster, by molten steel be casting continuously to form steel billet section for 150mm × The square billet of 150mm~200mm × 200mm, is air-cooled to room temperature；

D, heating steel billet and rolling：Billet heating temperature control is 950~1220 DEG C, and soaking temperature control is 1000~1200 DEG C, heating and 90~120min of soaking total time, pole wire rod or screw wire rod, rolling knot are rolled into using high-speed rod-rolling mill Beam postcooling is up to product；Wherein, the Laying head process in the high-speed rod-rolling mill, it is 880~960 to control laying temperature ℃；It is described to be cooled to be cooled to 600~700 DEG C first with the cooling velocity of 4~8 DEG C/s, then with the cooling speed of 2~3 DEG C/s Degree is cooled to 400~500 DEG C, is finally cooled to 150~300 DEG C with the cooling velocity of 0.5~1.0 DEG C/s.

4. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step a, the molten iron requires S content≤0.06%.

5. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step a, FeSi the and FeMn alloys FeSiMn alloy replacings.

6. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step b, the inert gas is at least one of argon gas or nitrogen.

7. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step b, the time >=2min for being blown into inert gas.

8. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step b, electrical heating temperature is higher than 60~90 DEG C of liquidus temperature.

9. the LF stove production methods of the building steel wire rod according to claim 3 containing V, Ti, Cr microalloy, it is characterised in that： In step d, the specification of the pole wire rod or screw wire rod is