CN1851008A - Method for preparing micro-alloy superfine crystal grain hot-rolled steel plate - Google Patents
Method for preparing micro-alloy superfine crystal grain hot-rolled steel plate Download PDFInfo
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- CN1851008A CN1851008A CN 200610040735 CN200610040735A CN1851008A CN 1851008 A CN1851008 A CN 1851008A CN 200610040735 CN200610040735 CN 200610040735 CN 200610040735 A CN200610040735 A CN 200610040735A CN 1851008 A CN1851008 A CN 1851008A
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Abstract
The producing process of the microalloy exceeding thin grain steel rolling deals with the producing technology characterized in that the microalloy element is joined in the steel separately or complexly, the added quantity is 0.08-0.14%, then the connection is finished; the gained board embryo is heated to the temperature of 1200-1220 to keep the temperature and roll wildly, the precise rolling is executed; the temperature of the entrance of the rolling mill keeps the 780-820, the precise rolling adopts the rolling with the three-four paths, the pressing quantity of the all paths is 62%-76%, the time between the two paths keeps 2-4s. The invention can improve the mechanics ability of the hot rolling armor laste.
Description
Technical field
The present invention relates to the technology of preparing of ultra-fine grain steel, refer in particular to a kind of micro-alloy superfine crystal grain hot-rolled steel plate production method of utilizing microalloy element precipitated phase intracrystalline forming core and strain hardening phase change technique.
Background technology
Research and development at present is the ferrous materials of new generation of feature with the superfine crystal particle, has become an important directions of world today's ferrous materials development.Since the nineties in 20th century,, mainly contained and utilized the controlled rolling and controlled cooling technology and utilize precipitate refine austenite crystal grain such as Nb, Ti and Al about the existing number of research projects of the grain refining of steel.But a large amount of studies show that, makes the grain refining of cable body by the austenite crystal refinement, and there is ultimate value (being about 10 μ m) in its size.Many researchs in recent years are recrystallised to the basis by deformation induced phase transformation and control ferrite, are aided with other technique means (super clean, electromagnetic field), at the ultra-fine grained ferrite crystal grain that can obtain under the test conditions of harshness below the 2 μ m.
Though these thin crystal techniques have important scientific value, but its preparation cost costliness, condition harshness has limited its practical application in engineering yet up to now.In addition, work in the past seldom relates to the intracrystalline forming core effect of microalloy element precipitated phase in the low-carbon micro steel-alloy.When rolling deformation, the effect of microalloying can produce new variation, second effect can be more outstanding mutually: form in multi-pass light reduction distortion additive effect on the basis of intracrystalline specific defects structure and form intracrystalline strain inducing precipitation particles again, increased ferritic phase deformed nucleus point greatly, obtain ultra-fine grain steel, thereby open up effective new way of grain refining.But this technology is applied to the industrial example domestic report that yet there are no at present.Through the applicant to external authoritative patent mechanism, such as: European patent (international networks), United States Patent (USP) database, pct international patent retrieval and domestic patent retrieval there is no related application.
Summary of the invention
In order to remedy existing production technique can't be produced the micro-alloy superfine crystal grain steel on traditional equipment of hot rolling blank, the invention provides a kind of micro-alloy superfine crystal grain hot-rolled steel plate production method of on traditional equipment of hot rolling, utilizing microalloy element precipitated phase intracrystalline forming core and strain hardening phase change technique.
Its technical scheme is:
Independent or compound adding microalloy element in the steel, add-on is 0.08%~0.14%, and carries out continuous casting; With the gained slab be heated to 1200 ℃-1220 ℃ the insulation roughing after, carry out finish rolling again; The temperature in of finishing mill is controlled between 780 ℃-820 ℃, and finish rolling adopts the 3-4 passage rolling, and its total reduction in pass is 62%-76%, and passage is controlled at 2-4s pitch time.
Microalloy element refers to vanadium, titanium or niobium;
First reduction in pass is 25-30%, and second reduction in pass is 25-30%, and the 3rd reduction in pass is 20-30%, and the four-pass draught is 15-30%;
The Chemical Composition of the micro-alloyed steel that adopts is: C:0.08-0.10%, Si:0.15-0.21%, Mn:0.55-0.6%, P:0.008-0.012%, S:0.005-0.007%, V:0.06.-0.14%, Ti:0.02-0.07%, Nb:0.02-0.07%, N:0.003-0.008%.
Advantage of the present invention is to obtain the micron-class superfine tissue of micro-alloyed steel under the constant substantially condition of existing industrial equipments and production cost; Utilize the intracrystalline forming core and the strain hardening phase change technique of precipitated phase, obtain micro-alloy superfine crystal grain hot-rolled steel plate on industrial milling train, its ferritic average grain size is 2-4 μ m, and the mechanical property of hot-rolled steel sheet is: σ
s〉=400MPa, σ
b〉=495MPa, δ
5〉=32%, thus homogeneous microstructure obtained, comprehensive mechanical property is good, cost performance is high, the manageable micro-alloy superfine crystal grain steel plate of production technique
Description of drawings
The ultra-fine grained ferrite of Fig. 1 microalloy hot-rolled steel sheet
The equally distributed precipitated phase of disperse in Fig. 2 microalloy hot-rolled steel sheet
Embodiment
The preparation method of micro-alloy superfine crystal grain hot-rolled steel plate is that independent or compound adding trace alloying element vanadium, titanium or niobium carry out continuous casting in the steel, the gained slab is heated to 1200 ℃-1220 ℃ insulation roughing after, carry out finish rolling again.The temperature in that enters finishing mill is controlled between 780 ℃-820 ℃, and finish rolling adopts the 3-4 passage rolling, and its total reduction in pass is 62%-76%.Wherein first reduction in pass is 25-30%, and second reduction in pass is 25-30%, and the 3rd reduction in pass is 20-30%, and it is 15-30% that four-pass is answered draught, and passage is controlled at 2-4s pitch time.
The hot-rolled steel sheet that this kind method is produced, the Chemical Composition of the micro-alloyed steel that adopts is: C:0.08-0.10%, Si:0.15-0.21%, Mn:0.55-0.6%, P:0.008-0.012%, S:0.005-0.007%, V:0.06-0.14%, Ti:0.02-0.07%, Nb:0.02-0.07%, N:0.003-0.008%.Its ferritic average grain size is 2-4 μ m.The mechanical property of this hot-rolled steel sheet is: σ
s〉=400MPa, σ
b〉=495MPa, δ
5〉=32%.
Describe in detail with embodiment below:
Embodiment 1
The vanadium micro-alloyed steel that will contain vanadium 0.12% carries out continuous casting, with the gained slab be heated to 1200 ℃ the insulation roughing after, carry out finish rolling again.The temperature in that enters finishing mill is controlled at 780 ℃, and refining three passages that adopt are rolling, and its total reduction in pass is 62%.Wherein first reduction in pass be 30%, the second reduction in pass be 28%, the three passage to answer draught be 25%, passage is controlled in the 3s pitch time.
Utilize this method production, can on conventional milling train, obtain micro-alloy superfine crystal grain hot-rolled steel plate.Its ferritic average grain size is 3.2 μ m, and the mechanical property of hot-rolled steel sheet is: σ
s=405MPa, σ
b=495MPa, δ
5=36%.
Embodiment 2
Vanadium-the niobium micro-alloy steel that will contain vanadium 0.06%, niobium 0.027% carries out continuous casting, with continuous casting gained slab be heated to 1220 ℃ the insulation roughing after, carry out finish rolling again.The temperature in that enters finishing mill is controlled at 800 ℃, and the refining four-pass that adopts is rolling, and its total reduction in pass is 64%.Wherein first reduction in pass be 30%, the second reduction in pass be 25%, the three reduction in pass be 20%, the four-pass to answer draught be 15%, passage is controlled in the 3s pitch time.
Utilize this method production, can on conventional milling train, obtain micro-alloy superfine crystal grain hot-rolled steel plate.Its ferritic average grain size is 2.4 μ m, and the mechanical property of hot-rolled steel sheet is: σ
s=490MPa, σ
b=560MPa, δ
5=33.5%.
Embodiment 3
Titanium-vanadium the micro-alloyed steel of titaniferous 0.03%, vanadium 0.06% is carried out continuous casting, with continuous casting gained slab be heated to 1210 ℃ the insulation roughing after, carry out finish rolling again.The temperature in that enters finishing mill is controlled at 820 ℃, and the refining four-pass that adopts is rolling, and its total reduction in pass is 74%.Wherein first reduction in pass is that 30%, the second reduction in pass is that 30%, the three reduction in pass is that 28%, the four-pass draught is 25%, and passage is controlled in the 3s pitch time.
Utilize this method production, can on conventional milling train, obtain micro-alloy superfine crystal grain hot-rolled steel plate.Its ferritic average grain size is 2.8 μ m, and the mechanical property of hot-rolled steel sheet is: σ
s=470MPa, σ
b=535MPa, δ
5=33%.
Utilize the inventive method production, can on conventional milling train, obtain micro-alloy superfine crystal grain hot-rolled steel plate.Fig. 1 is the ultra-fine grained ferrite of microalloy hot-rolled steel sheet, is typical organization's phenomenon of grain ultrafining, and Fig. 2 is the precipitated phase in the microalloy hot-rolled steel sheet, and precipitated phase is the disperse uniform distribution as can be seen, its particle tiny (≤50nm).Drawing a technical very important discovery thus is: at austenite during to ferritic transformation, utilize disperse can play the microalloy precipitate such as the V (C of the effect of ferrite heterogeneous nucleation in austenite crystal inside, N), VN, TiN etc., can make ferrite have very strong nucleation ability at the austenite crystal intragranular.This is because form the poorness district of austenite stable element around precipitate, thereby has promoted the ferritic forming core of intracrystalline greatly.The mechanical property of this hot-rolled steel sheet is: σ
s〉=400MPa, σ
b〉=495MPa, δ
5〉=32%, thus homogeneous microstructure, comprehensive mechanical property is good, cost performance is high micro-alloy superfine crystal grain steel plate obtained.
Above-mentioned three kinds of example sheet materials are carried out three random sampling analyses respectively for every kind, and its metallographic structure is superfine crystal particle ferrite and minute quantity perlite, and its mechanical property and the contrast of common process vanadium micro-alloyed steel mechanical property see Table 1.
The mechanical property contrast table of table 1 micro-alloy superfine crystal grain hot-rolled steel plate and common process vanadium microalloy hot-rolled steel sheet
| Mechanical property | Common process vanadium micro-alloyed steel | The vanadium micro-alloyed steel | Vanadium-niobium micro-alloy steel | Titanium-vanadium micro-alloyed steel | ||||||
| 1 | 2 | 3 | 1 | 2 | 3 | 1 | 2 | 3 | ||
| σ s/MPa | 305 | 405 | 405 | 410 | 490 | 485 | 485 | 470 | 470 | 475 |
| σ b/MPa | 395 | 495 | 500 | 505 | 560 | 560 | 555 | 535 | 540 | 545 |
| δ 5/% | 33 | 36.5 | 35 | 34 | 33.5 | 33 | 33 | 33 | 32 | 32 |
Claims (4)
1, a kind of preparation method of micro-alloy superfine crystal grain hot-rolled steel plate is characterized in that: independent or compound adding microalloy element in the steel, and add-on is 0.08%~0.14%, and carries out continuous casting; With the gained slab be heated to 1200 ℃-1220 ℃ the insulation roughing after, carry out finish rolling again; The temperature in of finishing mill is controlled between 780 ℃-820 ℃, and finish rolling adopts the 3-4 passage rolling, and its total reduction in pass is 62%-76%, and passage is controlled at 2~4s pitch time.
2, the preparation method of a kind of micro-alloy superfine crystal grain hot-rolled steel plate according to claim 1 is characterized in that: microalloy element refers to vanadium, titanium or niobium.
3, the preparation method of a kind of micro-alloy superfine crystal grain hot-rolled steel plate according to claim 1, it is characterized in that: first reduction in pass is 25-30%, second reduction in pass is 25-30%, and the 3rd reduction in pass is 20-30%, and the four-pass draught is 15-30%.
4, a kind of preparation method of micro-alloy superfine crystal grain hot-rolled steel plate, it is characterized in that: the Chemical Composition of the micro-alloyed steel of employing is: C:0.08-0.10%, Si:0.15-0.21%, Mn:0.55-0.6%, P:0.008-0.012%, S:0.005-0.007%, V:0.06-0.14%, Ti:0.02-0.07%, Nb:0.02-0.07%, N:0.003-0.008%.
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| CNB2006100407352A CN100513592C (en) | 2006-05-30 | 2006-05-30 | Method for preparing micro-alloy superfine crystal grain hot-rolled steel plate |
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|---|---|---|---|
| CNB2006100407352A CN100513592C (en) | 2006-05-30 | 2006-05-30 | Method for preparing micro-alloy superfine crystal grain hot-rolled steel plate |
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| CN100513592C CN100513592C (en) | 2009-07-15 |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101616754B (en) * | 2007-02-02 | 2011-08-17 | 住友金属工业株式会社 | Process for producing hot-rolled steel sheet having fine ferrite structure and hot-rolled steel sheet |
| CN108374131A (en) * | 2018-03-13 | 2018-08-07 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Mo combined microalloyings steel fine austenite grain |
| CN108486497A (en) * | 2018-03-13 | 2018-09-04 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Zr combined microalloyings steel fine austenite grain |
| CN108486496A (en) * | 2018-03-13 | 2018-09-04 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Zr-Mo combined microalloyings steel fine austenite grain |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US6221179B1 (en) * | 1997-09-11 | 2001-04-24 | Kawasaki Steel Corporation | Hot rolled steel plate to be processed having hyper fine particles, method of manufacturing the same, and method of manufacturing cold rolled steel plate |
| CN100419109C (en) * | 2005-11-04 | 2008-09-17 | 东北大学 | Manufacturing method of low carbon 700 MPa composite fertified ultrafine crystal band steel |
-
2006
- 2006-05-30 CN CNB2006100407352A patent/CN100513592C/en not_active Expired - Fee Related
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101616754B (en) * | 2007-02-02 | 2011-08-17 | 住友金属工业株式会社 | Process for producing hot-rolled steel sheet having fine ferrite structure and hot-rolled steel sheet |
| CN108374131A (en) * | 2018-03-13 | 2018-08-07 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Mo combined microalloyings steel fine austenite grain |
| CN108486497A (en) * | 2018-03-13 | 2018-09-04 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Zr combined microalloyings steel fine austenite grain |
| CN108486496A (en) * | 2018-03-13 | 2018-09-04 | 昆明理工大学 | A kind of cooling controlling and rolling controlling process method of Ti-Zr-Mo combined microalloyings steel fine austenite grain |
| CN108374131B (en) * | 2018-03-13 | 2020-11-06 | 昆明理工大学 | Controlled rolling and controlled cooling process method for superfine austenite grains of Ti-Mo composite microalloyed steel |
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| Publication number | Publication date |
|---|---|
| CN100513592C (en) | 2009-07-15 |
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Granted publication date: 20090715 Termination date: 20140530 |