CN104438418B - Rolling method of stainless steel mold cast steel ingot by one-heating forming - Google Patents

Abstract

The invention discloses a rolling method of a stainless steel mold cast steel ingot by one-heating forming. The rolling method comprises the following steps: firstly, determining chemical element components of stainless steel according to weight percent: 0.01%-0.40% of carbon, 0.20%-0.60% of silicon, 0.20%-2.00% of manganese, 0.10%-14.00% of nickel, 10.50%-23.00% of chromium, 0.00%-3.50% of molybdenum, 0.00%-0.50% of copper, 0.00%-0.45% of sulfur, 0.00%-0.45% of phosphorus, 0.0200%-0.2000% of nitrogen, 0.0001%-0.0010% of boron, and the balance of Fe and inevitable impurities, and then performing two-step technological flow: firstly, EAF primary smelting by an electric arc furnace, AOD refining, (LF refining, VD air exhaust) and mold casting; and secondly, steel ingot heating until rolling with the specification of a finished product.

Description

A kind of milling method of stainless steel mold caststeel ingot one-heating forming

Technical field

The present invention relates to a kind of milling method of stainless steel mold caststeel ingot one-heating forming, refer in particular to Stainless pipe billet with greatly Specification, the composition design of corrosion resisting steel round steel and its manufacture method.

Background technology

Rustless steel is the steel of the dielectric corrosion such as resistance to gas, water, acid, alkali, salt with chromium (cr >=10.5%) as essential element Kind.By structure of steel classification, rustless steel mainly has: austenitic stainless steel, voxel volume rustless steel, two phase stainless steel, martensite are stainless Steel and precipitation-hardening stainless steel.

Pipe is the steel billet of processing steel pipe, mainly has carbon steel, low-alloy steel, rustless steel, high temperature alloy, abros Deng, existing Stainless pipe billet smelting process mainly have continuous casting to smelt, molding is smelted, sensing is smelted and electroslag smelting, then The processing in road mainly has: rolling and static ingot breaking down or hammer cogging after continuous casting billet Direct Rolling, static ingot breaking down cogging Forging afterwards.

At present, China's Stainless pipe billet more adopt continuous casting billet Direct Rolling, typical steel grade be 304,304l, 304h, 316th, 316l etc., the advantage that this method produces is process is simple, production efficiency is high, lumber recovery is higher, manufacturing cost is more low Deng, but its by continuous casting billet specification and rear road rolling deformation is little is limited, cause its trimmed size (general diameter≤110mm) and pressure Contracting less than (Normal squeezing ratio≤4) it is impossible to meet big specification (such as diameter > 110mm) and high-quality steel pipe (such as boiler with High temperature pressure vessel etc.) requirement.

China Patent No. cn201110442974.1 disclose a kind of with high-carbon steel, high carbon martensite rustless steel, spring steel, The steel alloy such as bearing steel or high-speed steel, as steel core, using ordinary steel, martensitic stain less steel or austenitic stainless steel as body, is adopted It is combined steel ingot with casting process, then pass through finishing, hot rolling one-heating forming.Chinese patent cn200810034230.4 discloses one kind To the heating of low magnetic potassium steel continuous casting billet, de-scaling；Continuous casting billet is carried out hot rolling, becomes low magnetic high manganese steel sheet.

But prior art all fails to disclose how to use stainless steel mold caststeel ingot, design one-heating forming big specification corrosion resisting steel The composition of round steel and concrete production technology.The present inventor is intended in substantial amounts of production practices, by substantial amounts of experiment, draws optimization Formula and parameter, thus providing a kind of big specification (diameter > 110mm), economical (inexpensive), (low power reaches 1 to high-quality Group, various indexs are excellent) Stainless pipe billet rolling by one time heatin technology, meet the needs of stainless-steel pipe production.

Content of the invention

The technical problem being existed based on background technology, the present invention is directed to continuous casting rolling pipe during current Stainless pipe billet produces Specification is less and the shortcoming of static ingot many fire time rolling, there is provided the rolling of a kind of new stainless steel mold caststeel ingot one-heating forming The method making big specification Stainless pipe billet.

The purpose of the present invention is: solves the many fire time rolling of stainless steel mold caststeel ingot on the basis of not increasing smelting cost Problem；Purpose is to reduce heating fire, improve production efficiency and production capacity, is especially the reduction of steel ingot cogging and heats thus reducing Energy resource consumption and scaling loss, reduce further manufacturing cost.The present invention is especially effective for Stainless pipe billet and axle class component, greatly Improve production efficiency greatly, reduce energy consumption and waste gas discharge.

Additionally, in substantial amounts of production practices, by substantial amounts of experiment, drawing formula and the parameter of optimization, comprising: according to Conventional arc melting, refinery practice and given alloying element ratio, produce steel ingot using die casting process；Through specifically just Roll cogging and hot continuous rolling process is directly become a useful person.

Thus producing the Stainless pipe billet obtaining on the basis of aforementioned advantages, even more surprisingly obtain very high-quality The finished product of amount, its various index is excellent, and low power even more reaches 1 group, that is out the expection of those skilled in the art.

The present invention develops a kind of steel ingot rolling by one time heatin rustless steel round steel it is characterised in that the chemical element component of steel (weight %) is: carbon: 0.01～0.40, silicon: and 0.20～0.60, manganese: 0.20～2.00, nickel: 0.10～14.00, chromium: 10.50 ～23.00, molybdenum: 0.00～3.50, copper: 0.00～0.50, sulfur: 0.00～0.45, phosphorus: 0.00～0.45, nitrogen: 0.0200～ 0.2000, boron: 0.0001～0.0010, remaining is fe and inevitable impurity.

Composition design reason or principle:

Carbon: carbon is the element of stable austenite, carbon is solid with the elements such as cr, mn, mo formation carbide in rustless steel simultaneously It is dissolved in strengthening collective in ferrite, so that the intensity of steel and hardness is greatly improved, but c is too high then unfavorable to toughness and intercrystalline corrosion, Therefore carbon is controlled to 0.01～0.40% can guarantee good toughness and corrosion resistance while obtaining high intensity.

Manganese: manganese is austenite stabilizer element, the decomposition of austenite of drawing up.Meanwhile, manganese can play deoxidizer and desulfurization The effect of agent, can cleaning molten steel, but too high can promote coarse grains, additionally, improve steel decay resistance in terms of, the work of manganese With little, therefore it is controlled to 0.20～2.00%.

Silicon: silicon is ferrite former, has bad impact to forming austenite, with silicon in austenitic stainless steel The raising of content, delta ferrite level will increase, thus affecting the performance of steel.But silicon is solid-solution in ferrite and austenite, have bright Aobvious invigoration effect.Meanwhile, the affinity of silicon and oxygen is only second to aluminum and titanium, and is better than manganese, chromium, vanadium, be good reducing agent and Deoxidizer, can improve the consistency of steel, but silicon is too high will significantly reduce plasticity and the toughness of steel, therefore it is controlled to 0.20～ 0.60% can ensure that good toughness and intergranular corrosion resistance performance.

Chromium: chromium is carbide former, promotes being passivated and promoting steel to keep stablizing the result of passive state of steel.Meanwhile, Chromium is strongly to form and stablize ferritic element again, is dissolved in austenite and strengthens collective and do not reduce toughness, reduces austenite Area, postpones Cooling Austenite Transformation.So that the intensity of steel and hardness is significantly improved, be beneficial to anti intercrystalline corrosion and oxidation resistance 's.In addition chromium energy crystal grain thinning, improves quenched firm temper resistance, and therefore, steel of the present invention design chromium content is 10.50～ 23.00%.

Nickel: be the element forming simultaneously stable austenite, improve the tissue of high chrome, make stainless decay resistance and work Skill performance obtains to be improved, and makes steel have good intensity and the cooperation of plasticity, toughness.But nickel is the main of impact rustless steel cost Alloying element, therefore controls nickel content to be 0.10～14.00%.

Boron: boron and oxygen, nitrogen have very strong affinity, and also can generate hardness with some metal compounds with sulfur, carbon compound Larger boride.Trace B addition can improve austenitic stainless steel thermoplasticity and resistance to Sensitized Intergranular Corrosion performance, but works as boron In steel, when content exceedes a certain amount of, form the boride of low melting point, reduce hot-working character and the plasticity of steel, therefore control boron Content is 0.0001～0.0010%.

Molybdenum: molybdenum is to form ferritic element, and molybdenum can improve the mechanical behavior under high temperature of austenitic stainless steel, in rustless steel Precipitation phase can also be formed, improve the intensity of steel.Additionally, the addition of molybdenum can promote stainless steel surfaces passivation and can effectively intend The spot corrosion that hydrogen manufacturing atom is formed in metal surface, has the ability strengthening rustless steel pitting corrosion and crevice corrosion, therefore, controls Molybdenum content is 0.10～0.60%.

Nitrogen: be the important element in rustless steel, be a kind of stainless hardness of steel of raising, corrosion resistance and stabilization of austenite Effective element, except can replace part of nickel to save the intensity that also can improve steel in addition to valuable nickel element and decay resistance.Therefore Consider, steel of the present invention adds 0.02～0.20% from strong plasticity and cold and hot working performance, fatigue behaviour and high-temperature corrosion resistance performance Nitrogen be most suitable content.

Meanwhile, sulfur, phosphorus, lead, antimony, bismuth should reduce its content, to reduce former Austria in the case of technical conditions permission as far as possible The segregation of family name's body grain boundaries, improves toughness.It is dissolved between the carbon in austenite and each element and reach preferable optimum proportioning Content, so that material has the combination properties such as good plasticity, toughness, corrosion resistance.

Technical scheme is as follows:

The milling method of above-mentioned stainless steel mold caststeel ingot one-heating forming, using two-step process flow process:

The first step: refining → aod refine at the beginning of electric arc furnace eaf → (lf refine → vd pumping →) molding；Second step: Heating Steel Ingots → Direct Rolling is to trimmed size.

The first step, refining → aod refine at the beginning of electric arc furnace → (lf refine → vd pumping →) molding

Carry out refining at the beginning of molten steel in 20～60 tons of electric arc furnace；The argon oxygen decarburizing furnace refine of corresponding tonnage；Molding cast；Raw Produce the qualified molding side ingot of 12 cun, 17 cun or 20 cun；Cold ingot finishing or heat send rolling.

Can carry out after the described steel ingot demoulding cold ingot peeling finishing or directly heat send heater for rolling steel.

Second step, 750 milling train breaking down cogging+650 milling train hot continuous rolling is to finished product

Static ingot is cold to be sent or heat is delivered to milling train and rolled, by ingot shape size cogging different with trimmed size to 220 sides, Base in the middle of 180 sides and 160 sides, hot continuous rolling is to trimmed size.

Described Heating Steel Ingots technique: 1200 ± 20 DEG C of soaking, the heating and thermal insulation time is not less than 4 hours, and start rolling temperature is not low In 1050 DEG C；

Described rolling mill practice: cogging finishing temperature is not less than 1000 DEG C, blooming pass is not more than 35 passages, front 20 passage pressures Lower amount (δ h) controls in 25～60mm；Enter hot continuous rolling temperature and be not less than 950 DEG C；

The type of cooling: cold bed slow cooling collecting after scale sawing.

Direct hot continuous rolling is not landed, its rolling mill practice is the technology of original creation, using heavy reduction control after steel ingot breaking down cogging Passage processed and the rolling of cogging finishing temperature technique, are effectively guaranteed tissue, performance and the surface quality of steel, it is to avoid table Planar defect and the bad generation of low power.

In sum, a kind of milling method of stainless steel mold caststeel ingot one-heating forming is it is characterised in that according to conventional electric arc Stove melting, refinery practice and the alloying element ratio to top, produce steel ingot using die casting process；Through breaking down cogging and hot continuous rolling Directly become a useful person.

The invention has benefit that:

1st, quality is good.Due to rolling using static ingot, it has been effectively kept the advantage molding as-cast structure, along with big Drafts, compression ratio is larger, dense structure, better than conventional continuous casting and rolling pipe macrostructure.

2nd, trimmed size is big.Due to being rolled using static ingot, steel ingot area of section is big, little in larger compression ratio condition The specification that can become a useful person is larger, typically up to more than φ 200mm.

3rd, production efficiency is high.Although also contains molding breaking down cogging operation, followed by hot continuous rolling is become a useful person, than routine Forging or roll that one reconditioning has been lacked in the technological process become a useful person and bloom heats again after breaking down cogging, flow process shortens, and produces effect Rate improves.

4th, low cost.Forging or roll the technological process become a useful person and compare after conventional breaking down cogging, repaiies together due to decreasing Mill and bloom heat again, meanwhile, decrease the excision just pricked end to end, lumber recovery is also greatly improved, and reduces production cost.

5th, less energy consumption.Cause decreases one reconditioning and bloom heats again, it is possible to reduce energy resource consumption, reduces waste gas row Put.

Brief description

Accompanying drawing 1 is the process flow diagram of the present invention.

Accompanying drawing 2 is the tissue contrast of the present invention and continuous casting rolling and molding rolling rustless steel round steel.It can be seen that, with conventional continuous casting Rolling rustless steel is compared, and the tissue die break of the rustless steel round steel that the present invention obtains is more abundant, and tissue is comparatively dense.

Specific embodiment

Embodiment 1-3

Embodiment 1-3 adopts different rustless steel formula, and different is embodied as technological parameter, according to as follows same two Footwork technological process produces:

The first step: smelt

Electric furnace returns steel melting, and tapping temperature is not less than 1580 DEG C, tap 25.0～25.8t, and in ladle, the quantity of slag controls Within 150kg.Molten steel composition requires: c:0.8～1.2%, si:0.6～0.9%, cr:11～12%, and p :≤0.040%, Ni :≤0.55%.

Thermometric sampling after steel, oxygen decarburization are converted in aod refine.Add Calx 800kg, magnesia 50kg, blow gas oxygen: nitrogen Gas=1600:200.Add alloy when temperature >=1680 DEG C.After adding alloy, add Calx 1000～1200kg, blow gas Body is oxygen: nitrogen=1:1.When oxygen decarburization is to 0.20～0.30%, thermometric samples, and adds Calx 1000～1200kg.Eventually Point carbon controls >=0.08%, and reduction period deoxidizer ratio controls si:al=6:4, Calx 300～500kg, and fluorite 200～ 300kg.Alloy is allocated into internal control desired value after reduction.Draw double slag process operation after slag, add Calx 150～300kg, fluorite 200 ～300kg.Tapping adds reducing agent with steel stream.

Open pour temperature add 60 for liquidus temperature～80 DEG C.Molding 12 cun～20 cun steel ingots of casting.

Second step: rolling

Heating technique: heating technique takes 800 DEG C to enter stove insulation, is warming up to 1200 DEG C with the speed being not more than 100 DEG C/h It is incubated 4 hours afterwards.

Rolling mill practice: start rolling temperature is not less than 1050 DEG C；Cogging finishing temperature is not less than 1000 DEG C, and blooming pass is not more than 35 passages, front 20 reductions in pass (δ h) control in 25～60mm；Enter hot continuous rolling temperature and be not less than 950 DEG C.Cold after scale sawing Bed slow cooling is simultaneously collected.

As rolling steel grade needs to be annealed for martensitic structure, by the execution of Related Annealing technological requirement.

Table 1 is that the concrete one-tenth of rustless steel of embodiment 1-3 is grouped into.

The concrete composition of rustless steel of table 1 embodiment 1-3

Table 2 is the specific implementation process technological parameter of embodiment 1-3.

The specific implementation process technological parameter of table 2 embodiment 1-3

Table 3 is produced, for embodiment 1-3, the Stainless pipe billet obtaining and is rolled with conventional continuous casting hot-rolling method and conventional molding two fire The Stainless pipe billet low power grading contrast that method processed produces.

The Stainless pipe billet low power grading contrast that table 3 present invention is produced with conventional method

Low power is graded	Pattern segregation	General Loosen	Middle loose
				Conventional continuously cast billet for pipe-making	2.0	3.0	2.0
Conventional molding pipe	2.0	2.0	2.0
				Embodiment 1	1.0	1.0	1.0
Embodiment 2	1.0	2.0	1.0
				Embodiment 3	1.0	2.0	2.0

This detection data is just for above-mentioned detection sample.

Can see from experimental data, the Stainless pipe billet that the technique productions of the present invention obtain, macrostructure grading is substantially Preferably, total quality exceeds expection.

Table 4 is produced, for embodiment 1-3, the Stainless pipe billet obtaining and is rolled with conventional continuous casting hot-rolling method and conventional molding two fire Stainless pipe billet finished product rate and integrated cost contrast that method processed produces.

Stainless pipe billet finished product rate and integrated cost contrast that table 4 present invention is produced with conventional method

This detection data is just for above-mentioned detection sample.

Can see from data above, the Stainless pipe billet that present invention process production obtains, rate of comprehensively becoming a useful person is than conventional mould Cast tube base improves more than 10%；Integrated cost reduces more than 800 yuan/ton than conventional molding pipe.

The above, the only present invention preferably specific embodiment, but protection scope of the present invention is not limited thereto, Any those familiar with the art the invention discloses technical scope in, technology according to the present invention scheme and its Inventive concept equivalent or change in addition, all should be included within the scope of the present invention.

Claims (2)

1. a kind of milling method of stainless steel mold caststeel ingot one-heating forming is it is characterised in that its step is as follows:

(1) determine stainless chemical element component, according to percentage by weight be: carbon: 0.01～0.40, silicon: 0.20～0.60, Manganese: 0.20～2.00, nickel: 0.10～14.00, chromium: 10.50～23.00, molybdenum: 0.00～3.50, copper: 0.00～0.50, sulfur: 0.00～0.45, phosphorus: 0.00～0.45, nitrogen: 0.0200～0.2000, boron: 0.0001～0.0010, remaining is fe and can not keep away Exempt from impurity；

(2) smelt: carry out refining at the beginning of molten steel in 20～60 tons of electric arc furnace；The argon oxygen decarburizing furnace refine of corresponding tonnage；Molding is poured Note；Produce the qualified molding side ingot of 12 cun, 17 cun or 20 cun；Cold ingot finishing or steel ingot heat send rolling；

Carry out after the described steel ingot demoulding steel ingot peeling finishing or directly heat send heater for rolling steel；

(3) roll: 750 milling train breaking down cogging+650 milling train hot continuous rolling is to finished product

Static ingot is cold to be sent or heat is delivered to milling train and rolled, by ingot shape size cogging different with trimmed size to 160 sides, 180 Base in the middle of side, 220 sides, hot continuous rolling is to trimmed size；

In described hot continuous rolling, Heating Steel Ingots technique is: 1200 ± 20 DEG C of soaking, and the heating and thermal insulation time is not less than 4 hours, open rolling temperature Degree is not less than 1050 DEG C；

Described rolling mill practice is: cogging finishing temperature is not less than 1000 DEG C, and blooming pass is not more than 35 passages, front 20 passage pressures Amount δ h controls in 25～60mm；Enter hot continuous rolling temperature and be not less than 950 DEG C；

The type of cooling: cold bed slow cooling collecting after scale sawing.

2. the Stainless pipe billet that a kind of milling method production as claimed in claim 1 obtains.