CN102312036A - Steelmaking and slagging method - Google Patents
Steelmaking and slagging method Download PDFInfo
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Abstract
The invention provides a steelmaking and slagging method. The method comprises the following steps of: adding semisteel from which vanadium is extracted into a steel refining furnace; blowing oxygen into the steel refining furnace and blowing; in two minutes after the blowing is started, adding 9 to 11kg of lime, 9 to 11kg of high-magnesium lime, 3 to 8kg of fluxing agent, and 11 to 14kg of acid composite slag into the steel refining furnace based on one ton of semisteel from which vanadium is extracted; and in 9 minutes after the first slag is formed and blowing is started, adding 9 to 11kg of lime and 9 to 11kg of high-magnesium lime into the steel refining furnace based on one ton of semisteel from which vanadium is extracted, and continuously blowing to obtain molten steel and final slag. The fluxing agent is refined steel slag. Slagging is performed by the method, the slag can be formed quickly, the consumption of an iron and steel material is reduced, smelting time is shortened and steelmaking cost is saved.
Description
Technical field
The invention belongs to metallurgical technology field, relate to a kind of method of steelmaking slagging.
Background technology
Slag making is the indispensable high-temperature chemical reaction process of converter steelmaking.In steelmaking process, slag is chemical reaction and a heat passage unit in the converter.The task of converter steelmaking is exactly the qualified molten steel that obtains certain ingredients and temperature requirement through the slag that obtains having certain chemical physics performance.And slag is made well, can guarantee effectively that the process that blows is steadily smooth with operation, reduces the splash in the converting process and returns dried phenomenon, and molten steel heating is rapid, guarantees that detrimental impurity is removed to greatest extent in the steel, and metal loss is minimum, improves recovery rate of iron.
In traditional at home and abroad process for making, fluorite is used as the main fluxing of converter steelmaking slag making dephosphorization, and its major ingredient is a Calcium Fluoride (Fluorspan).It can quicken the fusion of calcium, improves the flowability of slag, to improve dephosphorization effect.But, as the steel-making converter dissolving agent, there is certain limitation with fluorite.On the one hand, the fluorine in the fluorite can seriously corrode the furnace lining of converter, causes life of converter reduction, polluted air, increase iron and steel stock consumption; CaF in the while fluorite
2Become the gas phase fluorination thing and can cause environmental pollution.Therefore, the staff who is engaged in metallurgical technology is both at home and abroad striving to find the steel-making converter dissolving agent that can substitute fluorite.
Ladle slag refer to continuous casting of molten steel accomplish after last slag in the ladle, this be molten steel in refining process, produce be rich in CaO, SiO
2, Al
2O
3, FeO, Fe
2O
3Alkalescence or high alkalinity slag, very poor through the refining steel cinder inclusion activity after the pyroprocessing, all the time its processing mode all be abandon in the slag field, seldom utilize.
Common molten iron-steelmaking, elements such as Si, Mn begin just rapidly from the oxygen supply of oxygen rifle that oxidation directly gets into the converter slag phase, are heated up rapidly in the molten bath and impel the lime fusing, thereby form the first slag that covers molten steel in the stove fast.Yet for Si, molten iron raw material that the Mn constituent content is very low, for example climb the steel half steel through vanadium extraction, the content of Si, Mn element is trace in the half steel, and when adopting this raw material steel-making, slag making must rely on to add and contain SiO
2Auxiliary slag making materials and the FeO that improves oxygen lance position and increase in the smelting process slag just can impel the lime fusing; Cause first slag to form difficulty like this; And climb the steel half steel through vanadium extraction; The C composition also has very big loss in the half steel, causes the semi-steel making shortage of heat, and this has increased the difficulty that slag forms more.
Summary of the invention
The present invention is directed to the existing slag of semi-steel making in the prior art and form the shortcoming of difficulty, a kind of method of the steelmaking slagging of slagging fast is provided.
Contriver of the present invention finds, the Al that is rich in the refining steel cinder inclusion
2O
3Be acid material, when adopting semi-steel making, can replace part Si O
2As slag former fusing lime, FeO, Fe in the refining steel cinder inclusion
2O
3Can play the effect of fusing CaO, reduction slag melting, quickening slagging, and the CaO in the refining steel cinder inclusion can also save the consumption of lime in the converter.And the refining steel cinder inclusion removes CaO, SiO
2, FeO, Al
2O
3, Fe
2O
3, also contain MnO, MgO etc. outward, make slag form the multicomponent system of a complicacy, impelled the reduction of slag melting, and slagging and slow down and return dried generation mid-term as early as possible.In addition, refining steel cinder inclusion Al
2O
3Be with " network " form in slag, when slag splashing, be easy to secure bond on furnace lining, help to prolong steel melting furnace furnace life.And adopt the refining steel cinder inclusion as the steel-making fusing assistant, help avoid the employing etching apparatus that fluorite brought, cause environmental pollution.
The present invention provides a kind of method of steelmaking slagging, and this method comprises, the half steel after the vanadium extraction is added in the steel melting furnace; And blow to oxygen blast wherein, in 2 minutes after the blowing beginning, with respect to the half steel after 1 ton of vanadium extraction; The lime of 9-11 kilogram, the high magnesium lime of 9-11 kilogram, the fusing assistant of 3-8 kilogram and the acid composite slag of 11-14 kilogram are joined in the steel melting furnace; After forming first slag, in 9 minutes that blow after beginning,, again the lime of 9-11 kilogram and the high magnesium lime of 9-11 kilogram are joined in the steel melting furnace with respect to the half steel after 1 ton of vanadium extraction; Continue blowing, obtain molten steel and finishing slag; Said fusing assistant is the refining steel cinder inclusion.
The present invention with the refining steel cinder inclusion as fusing assistant, slagging fast, for example, embodiment 1 promptly formed first slag in 4 minutes 30 seconds in the blowing beginning, the formation time of comparing first slag with the Comparative Examples of not using fusing assistant has shifted to an earlier date 30 seconds.
And; The method of steelmaking slagging of the present invention can also reduce the consumption of steelmaking ingredient, for example, compares with the Comparative Examples of not using fusing assistant; With respect to the half steel after 1 ton of vanadium extraction; The consumption of embodiment 1 lime reduces 3.07 kilograms, and the high magnesium lime consumption reduces 2.92 kilograms, and the consumption of acid composite slag reduces 1.54 kilograms.
And steelmaking slagging method provided by the invention is not owing to adopt fluorite, so can avoid equipment corrosion and the environmental pollution of adopting fluorite to bring.
In addition, steelmaking slagging method provided by the invention can also be accelerated the fusion of lime, and the slag attitude is active, improves dephosphorization, the sweetening power of slag, and process is not returned dried, not splash.
The Al that is contained in the fusing assistant among the present invention
2O
3Be with " network " form in slag, when slag splashing, be easy to secure bond on furnace lining, help to prolong steel melting furnace furnace life.
The use of refining steel cinder inclusion is the utilization of copper smelter slag resource circulation, has reduced production cost.And, reduced the site area of stacking ladle slag, reduced the environmental protection pressure of enterprise, help the Sustainable development of iron and steel enterprise.
Embodiment
The present invention provides a kind of method of steelmaking slagging, and this method comprises, the half steel after the vanadium extraction is added in the steel melting furnace; And blow to oxygen blast wherein, in 2 minutes after the blowing beginning, with respect to the half steel after 1 ton of vanadium extraction; The lime of 9-11 kilogram, the high magnesium lime of 9-11 kilogram, the fusing assistant of 3-8 kilogram and the acid composite slag of 11-14 kilogram are joined in the steel melting furnace; After forming first slag, in 9 minutes that blow after beginning,, again the lime of 9-11 kilogram and the high magnesium lime of 9-11 kilogram are joined in the steel melting furnace with respect to the half steel after 1 ton of vanadium extraction; Continue blowing, obtain molten steel and finishing slag; Said fusing assistant is the refining steel cinder inclusion.
According to the present invention; As long as in 2 minutes after beginning to blow; With respect to the half steel after 1 ton of vanadium extraction; The lime of 9-11 kilogram, the high magnesium lime of 9-11 kilogram, the fusing assistant of 3-8 kilogram and the acid composite slag of 11-14 kilogram are joined in the steel melting furnace, can form first slag, thereby realize the purpose of the quick slagging of the present invention.But preferably in 1 minute after beginning to blow they are joined in the steel melting furnace.Said lime, high magnesium lime, fusing assistant and acid composite slag can add in the steel melting furnace with form of mixtures, also can add in the steel melting furnace separately.Preferably the mixture with lime, high magnesium lime stone and acid composite slag adds in the steel melting furnace.
Although the lime that replenish to add behind the above-mentioned formation first slag,, adds in 9 minutes behind the formation first slag after begin to blow under the preferable case as long as after forming first slag, add with high magnesium lime.
Replenishing the lime and the high magnesium lime that add behind the above-mentioned formation first slag can once add, and also can add in batches.Contriver of the present invention finds, because disposable replenishing adding affiliation and influence the burn-off rate of lime and high magnesium lime, so preferably adopt following batch mode to add lime and high magnesium lime to obtain better flowability and desulfurization, dephosphorizing capacity.Under the preferable case; In 9 minutes after the said beginning of after forming first slag, extremely blowing; With respect to the half steel after 1 ton of vanadium extraction, the method that again high magnesium lime of the lime of 9-11 kilogram and 9-11 kilogram is joined in the steel melting furnace comprises, in 7 minutes after forming first slag to the blowing beginning; With respect to the half steel after 1 ton of vanadium extraction, add the lime of 4.5-5.5 kilogram and the high magnesium lime of 4.5-5.5 kilogram; At 8-9 minute that blows after beginning,, add the lime of 4.5-5.5 kilogram and the high magnesium lime of 4.5-5.5 kilogram with respect to the half steel after 1 ton of vanadium extraction.Said lime and high magnesium lime can add with form of mixtures, also can add separately, preferably add with form of mixtures.
In order to make full use of steel scrap, thereby make steel scrap obtain recycling and practicing thrift cost, in the method for steelmaking slagging of the present invention; Before carrying out said blowing; Steel scrap can also be in steel melting furnace, added,, the steel scrap of 27-80 kilogram can be added with respect to the half steel after 1 ton of vanadium extraction.
In the present invention, said steel scrap can be conventional steel scrap, and its staple comprises that in mass percent, Fe content is 96-99.5%, and C content is 0.05-1.0%, and Mn content is 0.1-2.0%, and Si content is 0.05-1.0%.
Among the present invention, the half steel after the said vanadium extraction can be the various half steels that obtain of handling through process for extracting vanadium.Under the preferable case, be benchmark with the half steel total mass after the said vanadium extraction, in mass percent; Half steel after the said vanadium extraction contains the C of 3.2-4.1%, the Si of 0.015-0.030%, the Mn of 0.02-0.04%; The P of 0.06-0.08%, the S smaller or equal to 0.015%, the Fe of 95.74-96.69%.
The charging temperature of the half steel after the said vanadium extraction is 1250-1400 ℃, preferred 1250-1360 ℃.
C content in the half steel after the said vanadium extraction is counted 3.2-3.9% with mass percent; And corresponding to the half steel after the said vanadium extraction per ton; The add-on of said steel scrap is during greater than 45 kilograms, and still there is the situation of shortage of heat in steel-making, needs to add the temperature raising agent additional heat.Said temperature raising agent is selected carbonaceousmaterial usually for use, and carburelant for example, said carburelant can be the conventional various carburelants that use in this area, the preferred type graphite that uses, and the carbon content of said type of graphite is more than the 85 quality %.The increase the temperature efficiency of said temperature raising agent is that every kilogram of temperature raising agent makes steel per ton heat 0.15-0.45 ℃.The concrete add-on of said temperature raising agent is decided according to the temperature of molten steel in the steel melting furnace.
In the fusing assistant that in steel-making, uses, need to use the fusing assistant of aluminium content, and the content of aluminum oxide also is 2-5 quality % in the refining steel cinder inclusion, so the present invention directly uses fusing assistant as steel-making converter with the refining steel cinder inclusion as 2-5 quality %.With said fusing assistant total mass is benchmark, and in mass percent, the CaO content in the said fusing assistant is 30-44%, SiO
2Content is 10-15%, Al
2O
3Content is 2-5%, and FeO content is 10-25%, Fe
2O
3Content is 10-25%, and MnO content is 1-2%, and MgO content is 5-25%, and P content is 0.2-1%, and S content is 0.02-0.1%, and moisture content is<0.1%.The fusing point of this fusing assistant is 1250-1360 ℃.The refining steel cinder inclusion that satisfies said moity and content can be the refining steel cinder inclusion that is produced when smelting the square billet steel.The preparation method of the fusing assistant among the present invention comprises depleted bulk refining steel cinder inclusion is carried out Mechanical Crushing, is processed into the particle that granularity is 10-80mm.
Said lime and high magnesium lime are mainly used in sulphur and the phosphorus of sloughing in the half steel composition.Said lime mainly contains CaO, and is benchmark with the total mass of said lime, and in mass percent, the CaO content in the said lime is 85-90%.Said high magnesium lime mainly contains MgO and CaO, is benchmark with the total mass of said high magnesium lime, and in mass percent, MgO content is 30-40%, and CaO content is 48-55%.This shows that the calcium oxide content of said high magnesium lime is lower than the content of quicklime in the said lime.
Contain SiO in the said acid composite slag
2, be mainly used in heating element defect of insufficient in the half steel that remedies after the vanadium extraction.SiO in said acid composite slag
2Content be generally 45-55 quality %, normally used acid composite slag for example can be a silica sand.
Basicity according to the first slag that is obtained by the method for the steelmaking slagging invented is 3.5-4.0, and the basicity of gained finishing slag is 3.9-4.5.
Through elements such as the carbon of blowing in can the said half steel of oxidation, phosphorus, silicon, remove gas and inclusion, and the molten steel even heating is heated up.In said converting process; Carry out said blowing through oxygen rifle (being oxygen lance); According to the present invention, oxygen lance blow head is preferably 1.4-2m apart from the basic rifle of molten pool metal liquid level position, and the rifle position when wherein blowing begins is preferably 1.9-2m; Back 2 minutes blowing rifle positions to catch carbon of blowing beginning are preferably 1.4m-1.8m, and catch carbon rifle position is preferably 1.2-1.5m.When blowing, with respect to half steel per ton, oxygen-consumption is 40-60Nm
3, be preferably 51-55Nm
3
The method of steelmaking slagging provided by the invention is applicable to the steel melting furnace of various routines, and for example, open hearth, converter and electric furnace are particularly useful for converter.Go out steel and carried out slag splashing (last round of) afterwards in converter, in converter, added half steel and steel scrap after the vanadium extraction, and whole fusing assistants has once been added by the converter high hopper, helped the quick fusing of ladle slag fusing assistant like this; And, half of total lime consumption promptly with respect to the half steel after 1 ton of vanadium extraction, added the lime of 9-11 kilogram, to satisfy the needs of converter slag dephosphorization, with the common process ratio, with respect to the half steel after 1 ton of vanadium extraction, the consumption of lime reduces the 0.85-3.07 kilogram; And; Half of high magnesium lime consumption promptly with respect to the half steel after 1 ton of vanadium extraction, added the high magnesium lime of 9-11 kilogram, guarantee in the converter slag MgO mass percentage content at 10-12% to satisfy the requirement of furnace retaining; With the common process ratio, the high magnesium lime consumption reduces the 1.0-2.92 kilogram; And, with whole SiO that is rich in
2Acid composite slag join in the converter, to satisfy the needs of converter slag-making, with the common process ratio, with respect to the half steel after 1 ton of vanadium extraction, the consumption of acid composite slag reduces the 1.54-3.08 kilogram.Obtaining will being left behind the first slag half the lime and high magnesium lime and in converting process, add in batches, mainly is that slag adds when enlivening, and with assurance enough flowabilities and desulfurization, dephosphorizing capacity is arranged.
Method provided by the invention is specially adapted to smelt the steel of square billet steel grade, like U75 steel grade, U71 steel grade, YQ450 steel grade etc.
Below in conjunction with embodiment the present invention is elaborated.
Embodiment 1
Present embodiment is used to explain the method for steelmaking slagging provided by the invention.
In 120 tons of new converters, smelt the steel of U75 steel grade.130.6 tons of half steels, 7 tons of steel scraps in converter after the adding vanadium extraction, the charging temperature of the half steel after the vanadium extraction is 1320 ℃.Added 1250 kilograms in lime in 1 minute after the blowing beginning, high magnesium lime 1250,500 kilograms of fusing assistants, 800 kilograms in 1700 kilograms of acid composite slags and type graphite promptly formed first slag in 4 minutes and 30 seconds after the blowing beginning, and first basicity of slag is 3.6.After blowing beginning 7 minutes add 625 kilograms lime and 625 kilograms high magnesium lime; After blowing beginning 9 minutes add 625 kilograms lime and 625 kilograms high magnesium lime, continue to blow to 12 minutes; Obtain molten steel and finishing slag; The tapping temperature of molten steel is 1685 ℃, and the tapping weight of molten steel is 130.72 tons, and finishing slag basicity is 4.2; Full iron is 18.88% in the finishing slag, and oxygen activity is 500ppm.The steelmaking process slag is active, and stronger dephosphorizing capacity is arranged.Tapping finishes the back slag splashing, and it is good to find that the furnace wall hangs slag.Consume 800 kilograms in 2500 kilograms in lime, 2500 kilograms of high magnesium limes, 500 kilograms of fusing assistants, 1700 kilograms of acid composite slags and type graphite in the steelmaking process altogether, consuming total amount of oxygen is 6210Nm
3Half steel composition, steel scrap composition, the composition of steel that goes out composition of steel and U75 steel grade are as shown in table 1.Fusing assistant ingredient content is as shown in table 5.SiO in CaO content in the lime, the MgO content in the high magnesium lime and CaO content, the acid composite slag
2Content is as shown in table 6.
Embodiment 2
Present embodiment is used to explain the method for steelmaking slagging provided by the invention.
In 120 tons of new converters, smelt the steel of U71 steel grade.140 tons of half steels, 5 tons of steel scraps in converter after the adding vanadium extraction, the charging temperature of the half steel after the vanadium extraction is 1300 ℃.Added 1395 kilograms in lime in 1 minute after the blowing beginning, high magnesium lime 1375,1020 kilograms of fusing assistants, 1600 kilograms of acid composite slags promptly formed first slag in 4 minutes and 33 seconds after the blowing beginning, and first basicity of slag is 3.5.After blowing beginning 6 minutes add 697 kilograms lime and 688 kilograms high magnesium lime; After blowing beginning 8 minutes add 697 kilograms lime and 688 kilograms high magnesium lime, continue to blow to 12.5 minutes; Obtain molten steel and finishing slag; The tapping temperature of molten steel is 1682 ℃, and the tapping weight of molten steel is 136.3 tons, and finishing slag basicity is 4.34; Full iron is 19.89% in the finishing slag, and oxygen activity is 450ppm.The steelmaking process slag is active, and stronger dephosphorizing capacity is arranged.Tapping finishes the back slag splashing, and it is good to find that the furnace wall hangs slag.Consume 2789 kilograms in lime, 2751 kilograms of high magnesium limes, 1020 kilograms of fusing assistants, 1600 kilograms of acid composite slags in the converting process altogether, consuming total amount of oxygen is 6400Nm
3Half steel composition, steel scrap composition, the composition of steel that goes out composition of steel and U71 steel grade are as shown in table 2.Fusing assistant ingredient content is as shown in table 5.SiO in CaO content in the lime, the MgO content in the high magnesium lime and CaO content, the acid composite slag
2Content is as shown in table 6.
Embodiment 3
Present embodiment is used to explain the method for steelmaking slagging provided by the invention.
In 120 tons of new converters, smelt the steel of YQ450 steel grade.133 tons of half steels, 4 tons of steel scraps in converter after the adding vanadium extraction, the charging temperature of the half steel after the vanadium extraction is 1360 ℃.Added 1300 kilograms in lime in 1 minute after the blowing beginning, high magnesium lime 1350,1045 kilograms of fusing assistants, 1500 kilograms of acid composite slags promptly formed first slag in 4 minutes and 35 seconds after the blowing beginning, and first basicity of slag is 3.65.After blowing beginning 6.5 minutes add 650 kilograms lime and 675 kilograms high magnesium lime; After blowing beginning 8 minutes add 650 kilograms lime and 675 kilograms high magnesium lime, continue to blow to 12.6 minutes, obtain molten steel and finishing slag.The tapping temperature of molten steel is 1690 ℃, and the tapping weight of molten steel is 134.42 tons, and finishing slag basicity is 3.93, and full iron is 21% in the finishing slag, and oxygen activity is 350ppm.The steelmaking process slag is active, and stronger dephosphorizing capacity is arranged.Tapping finishes the back slag splashing, and it is good to find that the furnace wall hangs slag.Consume 2600 kilograms in lime, 2700 kilograms of high magnesium limes, 1045 kilograms of fusing assistants, 1500 kilograms of acid composite slags in the steelmaking process altogether, consuming total amount of oxygen is 6600Nm
3Half steel composition, steel scrap composition, the composition of steel that goes out composition of steel and YQ450 steel grade are as shown in table 3.Fusing assistant ingredient content is as shown in table 5.SiO in CaO content in the lime, the MgO content in the high magnesium lime and CaO content, the acid composite slag
2Content is as shown in table 6.
Comparative Examples 1
Present embodiment is used to explain the method for the steelmaking slagging that does not add fusing assistant of the present invention.
In 120 tons of new converters, smelt the steel of U75 steel grade.130.6 tons of half steels, 7 tons of steel scraps in converter after the adding vanadium extraction, the charging temperature of the half steel after the vanadium extraction is 1320 ℃.Add 1450 kilograms in lime in 1 minute after the blowing beginning, high magnesium lime 1440,950 kilograms in 1900 kilograms of acid composite slags and type graphite formed first slag in 5 minutes after the blowing beginning, and first basicity of slag is 3.0.After blowing beginning 7 minutes add 725 kilograms lime and 720 kilograms high magnesium lime; After blowing beginning 9 minutes add 725 kilograms lime and 720 kilograms high magnesium lime, continue to blow to 12 minutes; Obtain molten steel and finishing slag; The tapping temperature of molten steel is 1683 ℃, and the tapping weight of molten steel is 130 tons, and finishing slag basicity is 4.0; Full iron is 21% in the finishing slag, and oxygen activity is 550ppm.The steelmaking process slag ratio is easier to return dried.Consume 950 kilograms in 2900 kilograms in lime, 2880 kilograms of high magnesium limes, 1900 kilograms of acid composite slags and type graphite in the steelmaking process altogether, consuming total amount of oxygen is 6210Nm
3Half steel composition, steel scrap composition, the composition of steel that goes out composition of steel and U71 steel grade are as shown in table 4.SiO in CaO content in the lime, the MgO content in the high magnesium lime and CaO content, the acid composite slag
2Content is as shown in table 6.
Table 1
| Embodiment 1 | C | Si | Mn | P | S |
| Go into stove half steel composition (quality %) | 3.7 | 0.02 | 0.03 | 0.074 | 0.010 |
| Steel scrap composition (quality %) | 0.30 | 0.42 | 0.50 | 0.015 | 0.015 |
| Go out composition of steel (quality %) | 0.068 | 0.015 | 0.022 | 0.014 | 0.008 |
| The steel converter terminal point of U75 steel grade is declared composition of steel (quality %) | ≤0.80 | ≤0.70 | ≤1.05 | ≤0.025 | ≤0.03 |
Table 2
| Embodiment 2 | C | Si | Mn | P | S |
| Go into stove half steel composition (quality %) | 3.95 | 0.021 | 0.026 | 0.07 | 0.010 |
| Steel scrap composition (quality %) | 0.65 | 0.40 | 0.60 | 0.015 | 0.015 |
| Go out composition of steel (quality %) | 0.069 | 0.02 | 0.035 | 0.017 | 0.011 |
| The steel converter terminal point of U71 steel grade is declared composition of steel (quality %) | ≤0.76 | ≤0.35 | ≤1.4 | ≤0.03 | ≤0.03 |
Table 3
| Embodiment 3 | C | Si | Mn | P | S |
| Go into stove half steel composition (quality %) | 3.88 | 0.02 | 0.025 | 0.072 | 0.015 |
| Steel scrap composition (quality %) | 0.45 | 0.25 | 0.58 | 0.015 | 0.015 |
| Go out composition of steel (quality %) | 0.078 | 0.023 | 0.035 | 0.012 | 0.011 |
| The steel converter terminal point of YQ450 steel grade is declared composition of steel (quality %) | ≤0.15 | ≤0.50 | ≤1.45 | ≤0.02 | ≤0.02 |
Table 4
| Comparative Examples | C | Si | Mn | P | S |
| Go into stove half steel composition (quality %) | 3.7 | 0.02 | 0.03 | 0.074 | 0.010 |
| Steel scrap composition (quality %) | 0.30 | 0.42 | 0.50 | 0.015 | 0.015 |
| Go out composition of steel (quality %) | 0.07 | 0.02 | 0.02 | 0.02 | 0.015 |
| The steel converter terminal point of U75 steel grade is declared composition of steel (quality %) | ≤0.80 | ≤0.70 | ≤1.05 | ≤0.025 | ≤0.03 |
Table 5
| CaO (%) | SiO 2 (%) | AL 2O 3 (%) | FeO (%) | Fe 2O 3 (%) | MnO (%) | MgO (%) | P (%) | S (%) | Water (%) | |
| Embodiment 1 | 35.33 | 10.23 | 2.5 | 15 | 15 | 1.5 | 20 | 0.34 | 0.09 | 0.01 |
| Embodiment 2 | 38.72 | 11.16 | 3 | 11 | 13 | 1.4 | 21 | 0.6 | 0.07 | 0.05 |
| Embodiment 3 | 41.05 | 14.27 | 3.2 | 13 | 18 | 1.8 | 8 | 0.55 | 0.06 | 0.07 |
Table 6
| CaO in the lime | MgO in the high magnesium lime | CaO in the high magnesium lime | SiO in the acid composite slag 2 | |
| Embodiment 1 | 90 | 35 | 51 | 55 |
| Embodiment 2 | 88 | 30 | 48 | 45 |
| Embodiment 3 | 85 | 40 | 55 | 50 |
| Comparative Examples | 90 | 35 | 51 | 55 |
Compare with the Comparative Examples that does not add fusing assistant, the time that obtains first slag of embodiment 1-3 has shifted to an earlier date 30,27,25 seconds respectively.And; With respect to the half steel after 1 ton of vanadium extraction; The consumption of the lime of embodiment 1-3 reduces 3.07 kilograms, 0.85 kilogram, 2.31 kilograms respectively; The high magnesium lime consumption reduces 2.92 kilograms, 1.0 kilograms, 1.38 kilograms respectively, and the consumption of acid composite slag reduces 1.54 kilograms, 2.31 kilograms, 3.08 kilograms respectively.
Claims (14)
1. the method for a steelmaking slagging is characterized in that, this method comprises; Half steel after the vanadium extraction is added in the steel melting furnace, and blow, in 2 minutes after the blowing beginning to oxygen blast wherein; With respect to the half steel after 1 ton of vanadium extraction, the lime of 9-11 kilogram, the high magnesium lime of 9-11 kilogram, the fusing assistant of 3-8 kilogram and the acid composite slag of 11-14 kilogram are joined in the steel melting furnace, in 9 minutes after extremely blowing begins after forming first slag; With respect to the half steel after 1 ton of vanadium extraction; Again the lime of 9-11 kilogram and the high magnesium lime of 9-11 kilogram are joined in the steel melting furnace, continue blowing, obtain molten steel and finishing slag; Said fusing assistant is the refining steel cinder inclusion.
2. method according to claim 1; Wherein, in said 9 minutes of after forming first slag, extremely blowing after beginning, with respect to the half steel after 1 ton of vanadium extraction; The method that again high magnesium lime of the lime of 9-11 kilogram and 9-11 kilogram is joined in the steel melting furnace comprises; After forming first slag, in 7 minutes that blow after beginning,, add the lime of 4.5-5.5 kilogram and the high magnesium lime of 4.5-5.5 kilogram with respect to the half steel after 1 ton of vanadium extraction; At 8-9 minute that blows after beginning,, add the lime of 4.5-5.5 kilogram and the high magnesium lime of 4.5-5.5 kilogram with respect to the half steel after 1 ton of vanadium extraction.
3. method according to claim 1, wherein, this method also is included in carries out in steel melting furnace, adding steel scrap before the said blowing, and with respect to the half steel after 1 ton of vanadium extraction, the add-on of said steel scrap is the 27-80 kilogram.
4. according to any described method among the claim 1-3, wherein, be benchmark with the half steel total mass after the said vanadium extraction; In mass percent, the half steel after the said vanadium extraction contains the C of 3.2-4.1%, the Si of 0.015-0.030%; The Mn of 0.02-0.04%; The P of 0.06-0.08%, the S smaller or equal to 0.015%, the Fe of 95.74-96.69%.
5. method according to claim 4; Wherein, the C content in the half steel after the said vanadium extraction is counted 3.2-3.9% with mass percent, and corresponding to the half steel after the said vanadium extraction per ton; The add-on of said steel scrap is during greater than 45 kilograms, and this method also comprises and in steel melting furnace, adds temperature raising agent.
6. method according to claim 5, wherein, the increase the temperature efficiency of said temperature raising agent is that every kilogram of temperature raising agent makes steel per ton heat 0.15-0.45 ℃.
7. according to claim 5 or 6 described methods, wherein, said temperature raising agent is a carburelant.
8. method according to claim 1, wherein, the charging temperature of the half steel after the said vanadium extraction is 1250-1360 ℃.
9. method according to claim 1 wherein, is a benchmark with said fusing assistant total mass, and in mass percent, the CaO content in this fusing assistant is 30-44%, SiO
2Content is 10-15%, Al
2O
3Content is 2-5%, and FeO content is 10-25%, Fe
2O
3Content is 10-25%, and MnO content is 1-2%, and MgO content is 5-25%, and P content is 0.2-1%, and S content is 0.02-0.1%, and moisture content is<0.1%.
10. method according to claim 9, wherein, said fusing assistant is the particle of 10-80mm.
11. method according to claim 1 and 2 wherein, is a benchmark with the total mass of said lime, in mass percent, the CaO content in the said lime is 85-90%.
12. method according to claim 1 and 2 wherein, is a benchmark with the total mass of said high magnesium lime, in mass percent, the MgO content in the said high magnesium lime is 30-40%, and the CaO content in the said high magnesium lime is 48-55%.
13. method according to claim 1 wherein, is a benchmark with the total mass of said acid composite slag, in mass percent, and the SiO in the said acid composite slag
2Content is 45-55%.
14. method according to claim 1 wherein, in said converting process, is carried out said blowing through the oxygen rifle, the rifle position during the blowing beginning is 1.9-2m, and back 2 minutes blowing rifle positions to catch carbon of blowing beginning are 1.4m-1.8m, and catch carbon rifle position is 1.2-1.5m; With respect to half steel per ton, blowing oxygen quantity is 40-60Nm
3
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Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101555537A (en) * | 2009-05-12 | 2009-10-14 | 攀钢集团攀枝花钢铁研究院有限公司 | Semi-steel steelmaking method |
| CN101575657A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101575656A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101575658A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101613779A (en) * | 2008-06-25 | 2009-12-30 | 攀枝花新钢钒股份有限公司 | A kind of slag former and preparation method thereof and using method |
| CN101696462A (en) * | 2009-11-03 | 2010-04-21 | 攀钢集团研究院有限公司 | Method for producing low phosphorus steel by smelting semisteel |
-
2010
- 2010-07-06 CN CN 201010219877 patent/CN102312036B/en not_active Expired - Fee Related
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101613779A (en) * | 2008-06-25 | 2009-12-30 | 攀枝花新钢钒股份有限公司 | A kind of slag former and preparation method thereof and using method |
| CN101555537A (en) * | 2009-05-12 | 2009-10-14 | 攀钢集团攀枝花钢铁研究院有限公司 | Semi-steel steelmaking method |
| CN101575657A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101575656A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101575658A (en) * | 2009-06-18 | 2009-11-11 | 攀钢集团攀枝花钢铁研究院有限公司 | Oxygen top blown converter steel making method |
| CN101696462A (en) * | 2009-11-03 | 2010-04-21 | 攀钢集团研究院有限公司 | Method for producing low phosphorus steel by smelting semisteel |
Non-Patent Citations (1)
| Title |
|---|
| 苏兴文等: "冶金渣的循环利用-LF炉精炼炉渣用作转炉助熔剂", 《第七届(2009)中国钢铁年会论文集》 * |
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