CN100507021C - LF composite deoxidization reducer - Google Patents

LF composite deoxidization reducer Download PDF

Info

Publication number
CN100507021C
CN100507021C CN 200710092636 CN200710092636A CN100507021C CN 100507021 C CN100507021 C CN 100507021C CN 200710092636 CN200710092636 CN 200710092636 CN 200710092636 A CN200710092636 A CN 200710092636A CN 100507021 C CN100507021 C CN 100507021C
Authority
CN
China
Prior art keywords
percent
steel
kinds
molten steel
compound
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200710092636
Other languages
Chinese (zh)
Other versions
CN101113484A (en
Inventor
陈浩
熊银成
胡兵
邱家富
陶权
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chongqing Iron and Steel Group Co Ltd
Original Assignee
Chongqing Iron and Steel Group Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chongqing Iron and Steel Group Co Ltd filed Critical Chongqing Iron and Steel Group Co Ltd
Priority to CN 200710092636 priority Critical patent/CN100507021C/en
Publication of CN101113484A publication Critical patent/CN101113484A/en
Application granted granted Critical
Publication of CN100507021C publication Critical patent/CN100507021C/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Treatment Of Steel In Its Molten State (AREA)

Abstract

The invention discloses an LF compound deoxidation reducing agent, which is made by compounding aluminium grain (AL), silicon-aluminum-barium alloy (SiCaBa), carborundum (SiC) and graphite. The compound contains Ca, Ba, C, Al and Si which have the weight proportions in the compound of: 1-5 percent of Ca, 2-7 percent of Ba, 15-45 percent of C, 5-30 percent of Al, 20-55 percent of Si. The LF compound deoxidation reducing agent can be used for LF refining molten steel and the beneficial effects can be brought out: 1. the average content of out-station molten steel (O) is 20-30 ppm, and reoxidation is lowered; 2. the average desulfurization rate is above 50 percent; 3. the content of inclusion is lowered greatly; 4. submerged-arc time is greatly shortened; 5. electric consumption of 1.5 DEG C is shortened to produce one-ton steel; 6. qualified rate of defects detection is above 95 percent. The invention has higher economic and social benefits and has good application prospect.

Description

The LF composite deoxidization reducer
Technical field
The present invention relates to a kind of LF composite deoxidization reducer, this product is mainly used in steelworks refining plant ladle furnace (LF), be mainly the steel secondary refining process and set up reducing atmosphere fast, shorten the time of making white slag (reductibility slag attitude), LF stove molten steel is carried out deep deoxidation, desulfurization and absorption be mingled with.
Background technology
Along with the continuous development of steel-smelting technology, the smelting of Clean Steel, low-sulfur steel, ultralow-sulfur steel is had higher requirement to the secondary refining technology.Steel secondary refining adopts the refining of LF stove more, LF stove method of refining is developed in 1971 by Japanese special steel company the earliest, previously based on the refining treatment special steel, be a kind ofly to stir and the slag refining is the ladle furnace refining technology of core with electric-arc heating, argon gas.Afterwards because the LF oven process had multiple metallurgical function and because the handiness in using, also be widely used in general steel factory.
In China, along with increasing substantially of continuous casting ratio, the LF stove also grows up quickly.The handled steel grade of LF stove almost relates to all steel grades from special steel to general steel.
LF oven process equipment is simple, and investment is little.The needs of visual quality control adopt different technological operating systems in the production; Can carry out different forming a complete set of by product needed in the design, satisfy the requirement of end product quality control.
Steel through the production of LF stove can reach very high quality level, and according to the needs of product, quality can reach following level in the production:
(1) desulfurization degree can reach 50%~70%, can produce the steel of sulphur content≤0.01%, if the treatment time is abundant, even can reach≤0.005%;
(2) can produce high purity steel, be mingled with total amount in the steel and can reduce by 50%, macrobead is mingled with almost all can be removed, and oxygen level can reach 20~30ppm in the steel;
(3) molten steel heating speed can reach 4~5 ℃/min;
(4) temperature control precision can reach 3~5 ℃;
(5) composition control accuracy height can be produced the steel of constituent content narrow range.
Because sulfur content of hot metal higher (0.03%~0.06%), and variety steel is more, in order to set up reducing atmosphere in the steel secondary refining process fast, to shorten the time of making white slag (reductibility slag attitude), so that being carried out deep deoxidation, desulfurization and absorption, LF stove molten steel is mingled with, reach the purpose that improves the molten steel performance, in smelting process, in molten steel, add various deoxidization reducers more and more at present.Nowadays the kind of reductor is more and more, and is also more and more higher to specification of quality.The reductive agent of using during actual refining mostly is various single reductive agents, as metal aluminum shot, iron powder and silicocalcium etc.Because these deoxidization reducer self reasons, the ability that actual deoxidation effect, sweetening power and absorption is mingled with all can not satisfy at present smelts high performance requirement to molten steel.
Summary of the invention
At existing deoxidization reducer deoxidation, desulfurization and absorption be mingled with aspect above shortcomings, the purpose of this invention is to provide a kind of LF composite deoxidization reducer that can improve deoxidation of molten steel, desulfurization greatly and be mingled with adsorptive power, impose this product and can produce the higher steel grade of performance.
The object of the present invention is achieved like this: the LF composite deoxidization reducer, it is characterized in that: it is mixed by aluminum shot (Al), calsibar alloy (SiCaBa), silicon carbide (SiC) and four kinds of raw materials of graphite, contain five kinds of Elements C a, Ba, C, Al and Si in the mixture that forms after four kinds of raw materials mix, these five kinds of elements shared mass percent in mixture is respectively Ca 1~5%, Ba 2~7%, C15~45%, Al 5~30%, Si 20~55%.
Further five kinds of elements shared mass percent in mixture of optimizing is respectively Ca 1~2.5%, Ba 2~5.5%, C 25~45%, Al 10~30%, Si 20~45%.
Further five kinds of elements shared mass percent in mixture of You Huaing is respectively Ca 1~1.5%, Ba 2~3.5%, C 35~45%, Al 20~30%, Si 20~30%.
Experiment shows that this LF composite deoxidization reducer is used for LF purified molten steel can reach following beneficial effect:
1. departures molten steel [O] content average out to 20~30ppm, secondary oxidation is low, and the molten steel Control for Oxygen Content is more stable;
2. desulfurization degree on average reaches more than 50%, and desulfuration efficiency is higher, and effect is remarkable;
3. inclusion content reduces this greatly, and four classes are mingled with by the ASTM grading and all are lower than 2.5 grades, wherein are lower than 1.0 grades more than 90%;
4. the submerged arc time shortens greatly, gets final product submerged arc in 10 seconds;
5. power consumption reduces, and the ton steel reduces power consumption and reaches 1.5 degree;
6. flaw detection qualification rate reaches more than 95%.
In a word, the present invention has high economic benefit and social benefit, has a extensive future.Simultaneously,, alleviated working strength of workers and environmental pollution thus greatly, also reduced alloy consumption simultaneously because the LF composite deoxidization reducer adopts the form of quantitative packed sealing.
Embodiment
Introduce the present invention in detail below in conjunction with embodiment.
This product is made of four kinds of raw materials: aluminum shot (Al), calsibar alloy (SiCaBa), silicon carbide (SiC) and graphite, contain five kinds of Elements C a, Ba, C, Al and Si in the mixture that forms after four kinds of raw materials mix, these five kinds of elements shared mass percent in mixture is respectively Ca 1~5%, Ba 2~7%, C 15~45%, Al 5~30%, Si 20~55%.Preferred percent is: Ca 1~2.5%, Ba 2~5.5%, C 25~45%, Al 10~30%, Si 20~45%.Preferred per-cent is Ca 1~1.5%, Ba 2~3.5%, C 35~45%, Al 20~30%, Si 20~30%.Above-mentioned per-cent by five kinds of elements, can extrapolate each raw material shared separately per-cent in mixture according to the purity of four kinds of raw materials conversely, the percentage composition that will influence five kinds of elements of effect of the present invention thus changes the percentage composition of four kinds of raw materials into, makes the interpolation of raw material have operability.But for the purpose of the present invention, what essence was concerned about is that four kinds of raw materials mix back five kinds of per-cents that element is final, and its different content influences very big to deoxidation, desulfurization, removal of impurities.
According to different occasions and service requirements this composite deoxidization reducer is divided into following three proportioning grades in the practical application.Five kinds of elements of each proportioning grade finally in mixture shared mass percent should meet table 1 regulation.
Table 1 chemical composition content (% of mixture total weight amount)
Figure C200710092636D00061
Below introduce four kinds of raw materials that form this composite deoxidization reducer respectively.
1, aluminum shot (Al)
The Al grain is a kind of strong reductor, and this generally acknowledges on metallurgical boundary.Though the deoxidizing capacity of Zr is stronger than Al, the deoxidation products ZrO of Zr 2Proportion is bigger, is difficult for come-up in the refining, can not remove easily.Therefore, select for use the Al grain to carry out deoxidation in the test.In practical item development, the 95 Al grains of selecting for use Chongqing City prosperous metallocene Products Co., Ltd to produce, its actual measurement physical and chemical index is an Al content 98.25%.
2, calsibar alloy (SiCaBa)
SiCaBa is strong composite deoxidant, and sweetening agent also has dephosphorizing concurrently.Deoxidizing capacity is strong, and deoxidation products is easy to remove.In LF stove refining process,, then have a considerable amount of A1 in the molten steel if do not carry out denaturing treatment to being mingled with 2O 3Be mingled with the chain strip with MnS and occur, the quality of steel is seriously influenced.To Al 2O 3Be mingled with, under the steel-making temperature, the general CaO.6Al that generates behind the feeding Ca line 2O 3, CaO.Al 2O 3, 12CaO.7Al 2O 3Be mingled with, wherein 12CaO.7Al 2O 3Fusing point minimum (1415 ℃), it is proper to add the control of Ca, Al content, several aluminates generate simultaneously, reduce fusing point mutually, therefore under the steel-making temperature, add appropriate SiC aBa, mCaO.nAl 2O 3Very easily become liquid state and get rid of or be present in the steel with spherical, to improving the molten steel purity, the influence of eliminating mechanical property has remarkable effect.
Barium reduces the vapour pressure of calcium effectively in the steel-making temperature range, increase the solubleness of calcium in molten steel, compare with silicocalcium, add in the slag as the calcium source with calsibar alloy, even half of the calcium amount silicocalcium add-on that adds, calcium contents in the molten steel but is about the twice of silicocalcium, and the stability of calcium also significantly improves in the molten steel.
Present embodiment selects for use Sichuan to manage into the SiCaBa of extraordinary silicon company limited's production already, and its actual measurement index (weight percent of principal element) sees Table 2:
Table 2 SiCaBa chemical index
Figure C200710092636D00071
3, silicon carbide (SiC)
In the bulk deoxidation process, Si has great secondary deoxidizing capacity, and in fact promptly most of Si finishes its deoxidation task in molten steel cooling and process of setting.
Among the SiC C in molten steel with the oxygen effect, generate CO gas, make slag generate a large amount of bubbles fast.In actual the use, its actual measurement of the silicon carbide of selecting for use SiC content is 76.73%, granularity 0~1mm.
4, graphite
Graphite with the oxygen generated reactive gas, plays foaming effect in refinery practice.In actual the use, its actual measurement of the graphite of selecting for use C content is 95.51%, ash accounts for 3.5%.
During production according to fixed chemical ingredients determine that the proportioning of above-mentioned raw materials prepares burden, raw material should be clean, dry.LF composite deoxidization reducer production technique is as follows:

Claims (1)

1, LF composite deoxidization reducer, it is characterized in that: it is mixed by aluminum shot (Al), calsibar alloy (SiCaBa), silicon carbide (SiC) and four kinds of raw materials of graphite, contain five kinds of Elements C a, Ba, C, Al and Si in the mixture that forms after four kinds of raw materials mix, these five kinds of elements shared mass percent in mixture is respectively Ca 1~1.5%, Ba 2~3.5%, C 35~45%, Al 20~30%, Si 20~30%.
CN 200710092636 2007-08-30 2007-08-30 LF composite deoxidization reducer Expired - Fee Related CN100507021C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200710092636 CN100507021C (en) 2007-08-30 2007-08-30 LF composite deoxidization reducer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200710092636 CN100507021C (en) 2007-08-30 2007-08-30 LF composite deoxidization reducer

Publications (2)

Publication Number Publication Date
CN101113484A CN101113484A (en) 2008-01-30
CN100507021C true CN100507021C (en) 2009-07-01

Family

ID=39022011

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200710092636 Expired - Fee Related CN100507021C (en) 2007-08-30 2007-08-30 LF composite deoxidization reducer

Country Status (1)

Country Link
CN (1) CN100507021C (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102443705A (en) * 2012-01-04 2012-05-09 金川集团有限公司 Composite deoxidizer for preparing metal powder by atomization method
CN104561736A (en) * 2014-12-29 2015-04-29 芜湖国鼎机械制造有限公司 High-strength gray cast iron, casting and preparation method of high-strength gray cast iron
CN109694936B (en) * 2017-10-20 2020-09-29 鞍钢股份有限公司 Deoxidizing alloying agent capable of purifying molten steel and preparation method thereof

Also Published As

Publication number Publication date
CN101113484A (en) 2008-01-30

Similar Documents

Publication Publication Date Title
CN103540833B (en) A kind of smelting process of hic resistance/SSCC steel
CN108085577A (en) A kind of smelting process for improving ton steel scrap ratio
CN102268513B (en) Method for improving castability of molten steel of medium and low carbon steel
WO2022127017A1 (en) Special continuous casting crystallizer mold powder for sorbite stainless steel and application thereof
CN101935740B (en) White slag refining agent for LF (Ladle Furnace) refining furnace and preparation method thereof
CN101643882A (en) Clean steel smelting method of anti-S steel oil well pipe
CN102827997A (en) Calcium carbide ferro-aluminium alloy used for smelting steel, and preparation method thereof
CN110408741B (en) Method for preparing steel refining slag system
CN113981304B (en) Production method for smelting F55 dual-phase steel by intermediate frequency furnace
CN100507021C (en) LF composite deoxidization reducer
CN105177217B (en) A kind of technique for reducing the converter smelting slag quantity of slag
CN102787210A (en) Calcareous premelted composite deoxidation and desulfurization agent for low-cost steel-making and method for preparing same
CN101503747B (en) Heating steel slag washing material for converter steel melting, preparation and use method
CN109576441B (en) RH refining method for controlling wettability of inclusions in low-carbon aluminum killed steel
CN102477472A (en) Mild steel desulfurization refining method
CN100371481C (en) Method for producing high titanium iron contg. low oxygen and low nitrogen
Wang et al. CAS-OB refining: slag modification with B2O3–CaO and CaF2–CaO
CN102071331B (en) Smelting preparation method of high-purity high-silicon manganese-silicon alloy
CN101787414B (en) Complex deoxidizer for steelmaking and preparation method thereof
CN110453137A (en) A kind of smelting process of the low aluminium steam turbine rotor steel of low silicon
CN113943902B (en) Low-gas-content controlled smelting method for high-silicon high-titanium aluminum-containing stainless steel
CN103031409B (en) Novel process of steelmaking deoxidization by utilizing precipitator dust of refining furnace
CN108715972A (en) A kind of low-phosphorous silicon iron product and its smelting process
CN114292984A (en) RC process technology for researching [ Mn ] [ Si ] element by LF refining slag component
CN103849713A (en) Refining slag for 20 Cr structural alloy steel and preparation method thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract

Assignee: Chongqing bodeng metallurgy material limited liability company

Assignor: Chongqing Iron & Steel (Group) Co., Ltd.

Contract record no.: 2010500000058

Denomination of invention: LF composite deoxidization reducer

Granted publication date: 20090701

License type: Exclusive License

Open date: 20080130

Record date: 20100916

C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20090701

Termination date: 20120830