CN1450180A - Method for improving cold-forming property of hot rolled steel plate - Google Patents
Method for improving cold-forming property of hot rolled steel plate Download PDFInfo
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- CN1450180A CN1450180A CN 02115041 CN02115041A CN1450180A CN 1450180 A CN1450180 A CN 1450180A CN 02115041 CN02115041 CN 02115041 CN 02115041 A CN02115041 A CN 02115041A CN 1450180 A CN1450180 A CN 1450180A
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Abstract
The method for improving cold-workability of hot-rolled steel plate includes the following steps: using electric furnace or converter to smelt molten steel, continuously casting sheet billet, soaking, hot continuously rolling and coiling, in which the percentage of tapping carbon in steel-smelting procedure is controlled is 0.03-0.04%, before the refinement is completed, when the oxygen activity is less than 5ppm, it adopts the wire-feeding method to feed boron wire to make percentage of boron in the steel be 0.001-0.01% and the temp. of molten steel after the refinement is completed is 1590-1605 deg.C, and the composition of molten steel after refinement contains: C. less than or equal to 0.06%, Si, less than or equal to 0.05%, Mn, 0.15-0.30%, P, less than or equal to 0.025%.
Description
Affiliated technical field
The present invention relates to a kind of method of improving cold-forming property of hot rolled steel plate, particularly relate to a kind of CSP of improvement explained hereafter cold-rolling deep-punching with the method for the cold-forming property of steel.
Background technology
Traditional cold-rolling deep-punching with the technological process of production of steel is: molten steel → heavy slab continuous casting → continuously cast bloom cooling and inspection → heating → hot rolling, though this technology can be produced the cold-rolling deep-punching hot-rolled sheet that intensity is low, hardness is low, but need cool off the back to continuously cast bloom checks, its technical process is long, the energy consumption height.In order to improve above-mentioned shortcoming, CSP (the Compact StripProduction that later 1980s succeeds in U.S. Niu Ke company, compact band steel production technique) characteristics are CSPs, and its technical process is: electric furnace or converter provide molten steel → sheet blank continuous casting → soaking → hot continuous rolling.It is tiny, even to adopt the hot-rolled steel sheet of CSP explained hereafter to organize, and the hardness of steel plate and intensity are all higher, and its HV is up to more than 130~150, yield strength σ
sUp to 320~430Mpa, tensile strength sigma
bUp to 390~470Mpa, unit elongation δ
5Be 26~30%, therefore, cause the cold-forming property of hot-rolled sheet relatively poor, hindered CSP technology and produced cold-rolling deep-punching with the Application and Development on the hot-rolled sheet.
Summary of the invention
The purpose of this invention is to provide a kind of production method of improving cold-forming property of hot rolled steel plate, to realize adopting CSP explained hereafter cold-rolling deep-punching hot-rolled steel sheet.
In order to achieve the above object, the production method of improving cold-forming property of hot rolled steel plate of the present invention may further comprise the steps successively:
(1) steel-making: select for use 08Al steel grade and conventional steel-making with electric furnace or converter, the weight percentage of tapping carbon is controlled at 0.03~0.04%, the molten steel that steel melting furnace is come out carries out refining in ladle refining furnace, before refining finishes, be that liquid steel temperature is at 1600~1615 ℃, deoxidation of molten steel is good, oxygen activity adopts injection feeding technology to feed the boron line during less than 5ppm, and making the weight percentage of boron in steel is 0.001~0.01%, the liquid steel temperature that refining finishes is 1590~1605 ℃, the molten steel after refining composition is: C :≤0.06%, and Si :≤0.05%, Mn:0.15~0.30%, P :≤0.025%, S :≤0.010%, Al (s): 0.020~0.050%, B:0.001~0.01%, N :≤0.006%, Cr+Ni+Cu :≤0.25%.
Above-mentioned percentage ratio is weight percentage (down together).
(2) continuous casting: molten steel injects tundish by the slide gate nozzle of ladle bottom, and the tundish liquid steel temperature is 1545~1560 ℃, adopts the funnel type crystallizer, and the strand pulling rate is 4.0~5.5m/min, and the slab thickness that goes out crystallizer is 50~60mm.
(3) soaking: above-mentioned strand enters soaking pit after shearing through secondary cooling bending straightening, and it is 950~1050 ℃ that strand advances furnace temperature, and tapping temperature is 1130~1190 ℃.
(4) hot rolling: enter hot continuous mill after going out the iron scale that forms on the strand process scale breaker removal casting billet surface of soaking pit, start rolling temperature is 1120~1180 ℃, finishing temperature is 800~950 ℃, and rolling V-bar is about 6m/s, and the sheet gauge after rolling is 1.2~6.0mm.
(5) batch: thin plate batches rolling by reeling machine after the cooling of laminar flow cooling section back segment, coiling temperature is 550~700 ℃.
In above-mentioned steps (1), the optimum content scope of boron in steel is: 0.002~0.009%.
In above-mentioned steps (4), the optimum range of start rolling temperature is: 1130~1150 ℃; The optimum range of finishing temperature is 865~890 ℃.
In above-mentioned steps (5), the optimum range of coiling temperature is: 655~665 ℃.
With an amount of boron of injection feeding technology feeding, be before refining among the present invention finishes in order to utilize the effect of boron, the intensity of hot-rolled sheet and hardness to be reduced.
Higher open rolling, finish to gauge and the coiling temperature of selection is intensity and the hardness in order to reduce hot-rolled sheet among the present invention.
The molten steel after refining composition be should give control well among the present invention, and each Composition Control is as follows:
C≤0.06%: if C content surpasses 0.06%, a large amount of carbide precipitates of meeting cause cold-forming property poor; But if C content is lower than 0.03%, Molten Steel over-oxidation is serious, the oxygen level height.The optimum range of C content is 0.03~0.04%.
Si≤0.05%: if the Si too high levels, then intensity rises, and cold-forming property is poor, and situation is preferably: Si content is below 0.03%.
The main effect of Mn<0.3%:Mn is that S is fixed with MnS, but if the Mn too high levels can cause the steel sclerosis.
P≤0.025%:P is the solution strengthening element, and its too high levels can cause the steel sclerosis.
S≤0.01%:S too high levels can cause cold-forming property poor.S is fixed by MnS, and therefore, its content is low more good more.S also is an important factor that influences the CSP continuous casting bleed-out in addition.
Al<0.05%: aluminium uses as reductor.The present invention is by adding a certain amount of B, and the N of a great deal of is fixed as BN, so the amount of separating out of AlN is little, if the Al too high levels, part BN becomes AlN, produces superfluous B, hardens.
B<0.01%:B is softening element, but if its too high levels, then resistance to deformation is big.
N≤0.006%:N is fixed by BN, and is too much if BN measures, then poor in processability.
Cr+Ni+Cu≤0.25%:Cr, Ni, Cu too high levels can reduce cold-workability, particularly during the Cu too high levels, easily produce the limit and split.
The present invention compared with prior art has the following advantages: owing to add boron in refining process, the hardness and the intensity of hot-rolled steel sheet are reduced, unit elongation improves, thereby improves the cold-forming property of hot-rolled steel sheet, to realize adopting CSP explained hereafter cold-rolling deep-punching hot-rolled sheet.
Embodiment
Embodiment 1
Present embodiment adopts CSP explained hereafter cold-rolling deep-punching hot-rolled steel sheet, may further comprise the steps successively:
(1) steel-making
Selecting 08Al steel grade and capacity for use is that 150 tons ultra high power vertical electric furnace is smelted, the weight percentage of tapping carbon is 0.04%, the molten steel that steel melting furnace is come out carries out refining in ladle refining furnace, before refining finishes, be that liquid steel temperature is at 1600~1615 ℃, deoxidation of molten steel is good, oxygen activity is during less than 5ppm, employing injection feeding technology hello diameter 12mm, boron content are 20% boron line, the weight percentage that makes boron in the molten steel is 0.003~0.007%, the liquid steel temperature that refining finishes is 1590~1605 ℃, and molten steel composition is as shown in table 1.
(2) continuous casting: molten steel injects tundish by the slide gate nozzle of ladle bottom, and the tundish liquid steel temperature is 1545~1560 ℃, adopts the funnel type crystallizer, and the strand pulling rate is 4.0~5.5m/min, and the slab thickness that goes out knot product device is 50mm.
(3) soaking: above-mentioned strand enters soaking pit after shearing through secondary cooling bending straightening, and it is 950~1050 ℃ that strand advances furnace temperature, and tapping temperature is 1140 ℃.
(4) hot rolling: enter on the six frame finishing train after going out the iron scale that forms on the strand process scale breaker removal casting billet surface of soaking pit, start rolling temperature is 1130 ℃, finishing temperature is 890 ℃, and rolling V-bar is about 6m/s, and the sheet gauge after rolling is 5.0mm.
(5) batch: thin plate batches rolling by reeling machine after the cooling of laminar flow cooling section back segment, coiling temperature is 660 ℃.
The mechanical property of the hot-rolled sheet coil that present embodiment is produced is as shown in table 2, and as shown in Table 2, the mechanical property of this hot-rolled sheet coil satisfies the requirement of cold-rolling deep-punching with steel fully.
The chemical ingredients (%) of the hot-rolled sheet coil that table 1 embodiment 1 produces
| Embodiment | ??C | ??Si | ??Mn | ??P | ??S | ?Al (s) | ????B | ????N | ?Cr+Ni+Cu |
| ??1 | ?0.047 | ??0.04 | ??0.22 | ?0.018 | ?0.004 | ?0.025 | ?0.0080 | ??0.005 | ??0.24 |
The mechanical property of the hot-rolled sheet coil that table 2 embodiment 1 produces
| ??σ s(Mpa) | ??σ b(Mpa) | ??δ 5(%) | Wide clod wash | ????HRB | ????HV |
| ????299 | ????372 | ????29.5 | Qualified | ????57 | ????103 |
Embodiment 2
Present embodiment is another batch 08Al coiled sheet that adopts the CSP explained hereafter, sheet gauge after rolling is 1.6mm, and its chemical ingredients is as shown in table 3, and its mechanical property is as shown in table 4, as shown in Table 4, the mechanical property of this hot-rolled sheet coil also satisfies the requirement of cold-rolling deep-punching with steel fully.
The chemical ingredients (%) of the hot-rolled sheet coil that table 3 embodiment 2 produces
| Embodiment | ??C | ???Si | ???Mn | ??P | ???S | ??Al (s) | ????B | ????N | ?Cr+Ni+Cu |
| ????2 | ?0.058 | ??0.03 | ??0.21 | ?0.02 | ??0.01 | ??0.03 | ?0.0070 | ??0.0055 | ????0.23 |
The mechanical property of the hot-rolled sheet coil that table 4 embodiment 2 produces
| ??σ s(Mpa) | ??σ b(Mpa) | ??δ 5(%) | Wide clod wash | ????HRB | ????HV |
| ????280 | ????352 | ????31 | Qualified | ????61 | ????108 |
Embodiment 3
Present embodiment is the another batch of 08Al coiled sheet that adopts the CSP explained hereafter, sheet gauge after rolling is 3.0mm, and its chemical ingredients is as shown in table 5, and its mechanical property is as shown in table 6, as shown in Table 6, the mechanical property of this hot-rolled sheet coil also satisfies the requirement of cold-rolling deep-punching with steel fully.
The chemical ingredients (%) of the hot-rolled sheet coil that table 5 embodiment 3 produces
| Embodiment | ???C | ???Si | ???Mn | ???P | ???S | ??Al (s) | ????B | ????N | ?Cr+Ni+Cu |
| ???3 | ?0.048 | ??0.03 | ??0.22 | ?0.022 | ??0.06 | ??0.028 | ??0.0065 | ??0.0053 | ????0.22 |
The mechanical property of the hot-rolled sheet coil that table 6 embodiment 3 produces
| ??σ s(Mpa) | ??σ b(Mpa) | ??δ 5(%) | Wide clod wash | ????HRB | ????HV |
| ????298 | ????374 | ????30.3 | Qualified | ????57 | ????102 |
Claims (8)
1. the method that can improve cold-forming property of hot rolled steel plate may further comprise the steps successively:
(1) steel-making: select for use 08Al steel grade and conventional steel-making with electric furnace or converter, the weight percentage of tapping carbon is controlled at 0.03~0.04%, the molten steel that steel melting furnace is come out carries out refining in ladle refining furnace, before refining finishes, be that liquid steel temperature is at 1600~1615 ℃, deoxidation of molten steel is good, and oxygen activity adopts injection feeding technology to feed the boron line during less than 5ppm, making the weight percentage of boron in steel is 0.001~0.01%, the liquid steel temperature that refining finishes is 1590~1605 ℃, and the molten steel after refining composition is: C :≤0.06%, and Si :≤0.05%, Mn:0.15~0.30%, P :≤0.025%, S :≤0.010%, Al (s): 0.020~0.050%, B:0.001~0.01%, N :≤0.006%, Cr+Ni+Cu :≤0.25%, above-mentioned percentage ratio is weight percentage;
(2) continuous casting: molten steel injects tundish by the slide gate nozzle of ladle bottom, and the tundish liquid steel temperature is 1545~1560 ℃, adopts the funnel type crystallizer, and the strand pulling rate is 4.0~5.5m/min, and the slab thickness that goes out crystallizer is 50~60mm;
(3) soaking: above-mentioned strand enters soaking pit after shearing through secondary cooling bending straightening, and it is 950~1050 ℃ that strand advances furnace temperature, and tapping temperature is 1130~1190 ℃;
(4) hot rolling: enter hot continuous mill after going out the iron scale that forms on the strand process scale breaker removal casting billet surface of soaking pit, start rolling temperature is 1120~1180 ℃, finishing temperature is 800~950 ℃, and rolling V-bar is about 6m/s, and the sheet gauge after rolling is 1.2~6.0mm;
(5) batch: thin plate batches rolling by reeling machine after the cooling of laminar flow cooling section back segment, coiling temperature is 550~700 ℃.
2. the method for improving cold-forming property of hot rolled steel plate according to claim 1 is characterized in that: in described step (1), the optimum content scope of boron in steel is: 0.002~0.009%.
3. the method for improving cold-forming property of hot rolled steel plate according to claim 1 is characterized in that: in described step (4), the optimum range of start rolling temperature is: 1130~1150 ℃; The optimum range of finishing temperature is 865~890 ℃.
4. the method for improving cold-forming property of hot rolled steel plate according to claim 1 is characterized in that: in described step (5), the optimum range of coiling temperature is: 655~665 ℃.
5. the method for improving cold-forming property of hot rolled steel plate according to claim 1 is characterized in that: the diameter of the boron line that is adopted is 12mm, and boron content is 20%.
6. the method for improving cold-forming property of hot rolled steel plate according to claim 1, it is characterized in that: the molten steel after refining composition is: C:0.047%, Si:0.04%, Mn:0.22%, P:0.018%, S:0.004%, Al (s): 0.025%, B:0.0080%, N:0.005%, Cr+Ni+Cu:0.24%.
7. the method for improving cold-forming property of hot rolled steel plate according to claim 1, it is characterized in that: the molten steel after refining composition is: C:0.058%, Si:0.03%, Mn:0.21%, P:0.010%, S:0.01%, Al (s): 0.03%, B:0.0070%, N:0.0055%, Cr+Ni+Cu:0.23%.
8. the method for improving cold-forming property of hot rolled steel plate according to claim 1, it is characterized in that: the molten steel after refining composition is: C:0.048%, Si:0.03%, Mn:0.22%, P:0.022%, S:0.06%, Al (s): 0.028%, B:0.0065%, N:0.0053%, Cr+Ni+Cu:0.22%.
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| CN 02115041 CN1207407C (en) | 2002-04-05 | 2002-04-05 | Method for improving cold-forming property of hot rolled steel plate |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1293220C (en) * | 2004-07-09 | 2007-01-03 | 唐山钢铁股份有限公司 | Continuous casting and rolling process for producing cold rolling steel with thin slab |
| CN100336617C (en) * | 2004-10-25 | 2007-09-12 | 广州珠江钢铁有限责任公司 | Method for using hot-rolled steel plate to produce and steel cylinder by using continuously casting and rolling thin steel blanket |
| CN100345639C (en) * | 2005-12-21 | 2007-10-31 | 攀钢集团攀枝花钢铁研究院 | Manufacturing method of ultrafine crystal thin hot rolled steel plate and hot rolled steel plate produced thereby |
| CN101147919B (en) * | 2007-09-30 | 2010-10-13 | 马鞍山钢铁股份有限公司 | Method for reducing cold rolled galvanized plate surface defect with CSP hot rolled coil as raw material |
| CN101444885B (en) * | 2008-12-29 | 2012-09-26 | 杭州钢铁集团公司 | Continuous casting process for HG20 martensitic steel |
| CN102816918A (en) * | 2012-09-04 | 2012-12-12 | 马钢(集团)控股有限公司 | Technique for preventing steel coils from bonding during annealing process |
| CN109880972A (en) * | 2019-04-01 | 2019-06-14 | 山东钢铁集团日照有限公司 | A kind of SPHC low-carbon class steel grade production technology |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN100571971C (en) * | 2008-06-25 | 2009-12-23 | 钢铁研究总院 | A kind of hot rolled steel plate for punch process and preparation method thereof |
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2002
- 2002-04-05 CN CN 02115041 patent/CN1207407C/en not_active Expired - Fee Related
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1293220C (en) * | 2004-07-09 | 2007-01-03 | 唐山钢铁股份有限公司 | Continuous casting and rolling process for producing cold rolling steel with thin slab |
| CN100336617C (en) * | 2004-10-25 | 2007-09-12 | 广州珠江钢铁有限责任公司 | Method for using hot-rolled steel plate to produce and steel cylinder by using continuously casting and rolling thin steel blanket |
| CN100345639C (en) * | 2005-12-21 | 2007-10-31 | 攀钢集团攀枝花钢铁研究院 | Manufacturing method of ultrafine crystal thin hot rolled steel plate and hot rolled steel plate produced thereby |
| CN101147919B (en) * | 2007-09-30 | 2010-10-13 | 马鞍山钢铁股份有限公司 | Method for reducing cold rolled galvanized plate surface defect with CSP hot rolled coil as raw material |
| CN101444885B (en) * | 2008-12-29 | 2012-09-26 | 杭州钢铁集团公司 | Continuous casting process for HG20 martensitic steel |
| CN102816918A (en) * | 2012-09-04 | 2012-12-12 | 马钢(集团)控股有限公司 | Technique for preventing steel coils from bonding during annealing process |
| CN109880972A (en) * | 2019-04-01 | 2019-06-14 | 山东钢铁集团日照有限公司 | A kind of SPHC low-carbon class steel grade production technology |
| CN109880972B (en) * | 2019-04-01 | 2021-04-13 | 山东钢铁集团日照有限公司 | Production process of SPHC low-carbon steel |
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| CN1207407C (en) | 2005-06-22 |
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