阅读说明：本技术 一种提高铸造用超高纯生铁外观质量的方法 (Method for improving appearance quality of ultra-pure pig iron for casting ) 是由 白佳鑫 白鹏十瀚 于 2020-05-23 设计创作，主要内容包括：本发明属于黑色金属冶炼技术领域,提出了一种提高铸造用超高纯生铁外观质量的方法,包括生铁铁液脱硅、脱磷、脱硫后,进行炉外增硅脱氧处理,所述增硅脱氧处理包括生铁铁液中加入增硅剂和助剂使生铁铁液碳当量控制在4.20％～4.30％。通过上述技术方案,解决了现有技术中生铁外观质量差的问题。(The invention belongs to the technical field of ferrous metal smelting, and provides a method for improving the appearance quality of ultra-pure pig iron for casting, which comprises the steps of desiliconizing, dephosphorizing and desulfurizing a pig iron liquid, and then carrying out external desiliconizing and deoxidizing treatment, wherein the desiliconizing and deoxidizing treatment comprises the step of adding a desiliconizing agent and an auxiliary agent into the pig iron liquid to control the carbon equivalent of the pig iron liquid to be 4.20-4.30%. Through the technical scheme, the problem of poor appearance quality of the pig iron in the prior art is solved.)

1. The method for improving the appearance quality of the ultra-pure pig iron for casting is characterized in that after desiliconization, dephosphorization and desulfurization of pig iron liquid, external desiliconization and deoxidation treatment is carried out, wherein the desiliconization and deoxidation treatment comprises the step of adding a desiliconization agent and an auxiliary agent into the pig iron liquid to control the carbon equivalent of the pig iron liquid to be 4.20-4.30%.

2. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein the raw iron liquid is subjected to slagging-off before the silicon-increasing deoxidation treatment until the thickness of a slag layer is less than or equal to 5 mm.

3. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein the silicon increasing agent comprises 75# ferrosilicon, and the grain size of the 75# ferrosilicon is 3-10 mm.

4. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein the auxiliary agent comprises the following components in a mass ratio of (0.5-1): 1, nano TiN powder and aluminum fluoride;

the mass ratio of the auxiliary agent to the silicon increasing agent is (1-2.5): 600.

5. the method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein the temperature of pig iron liquid is controlled to 1400 ℃ to 1450 ℃ during the silicon-increasing deoxidation treatment.

6. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein the carbon equivalent calculation formula is CE% ═ C% +1/3(Si + P)%.

7. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 1, wherein when a silicon increasing agent is added to the pig iron liquid, a spray gun is inserted into the liquid iron to perform blowing stirring, and then the mixture is kept stand for 3-5min and 4-6 min.

8. The method for improving the appearance quality of ultra-high purity pig iron for casting according to claim 7, characterized in that the spray holes of the spray guns are in a bell mouth shape, the stirring gas of the spray guns is nitrogen, and the pressure of the nitrogen is controlled to be 0.4-0.5 MPa.

Technical Field

The invention belongs to the technical field of ferrous metal smelting, and relates to a method for improving the appearance quality of ultra-pure pig iron for casting.

Background

The casting industry is a basic industry of manufacturing industry, the ultra-high-purity pig iron for casting is a key basic material of high-end iron castings, and the production process of the ultra-high-purity pig iron for casting comprises the following steps of (1) selecting raw materials: fully utilizing high-quality ore sources, and selecting iron ore concentrate powder with low P, low Ti and low trace elements; (2) optimizing sintering and pre-preparing: an automatic pre-preparation process is adopted for iron ore concentrate powder and lime,the two-component and two-component mixing is carried out to ensure the grade, alkalinity and TiO of the iron ore concentrate powder₂、P₂O₅And the uniformity and stability of lime; (3) the iron concentrate powder wet grinding process comprises the following steps: the fineness of the iron concentrate powder and the strength of the pellet are improved, and TiO in the pellet is reduced₂、P₂O₅The impurity content of (a); (4) smelting the blast furnace by adopting low silicon; (5) refining and deep purification: the method is characterized in that the molten iron smelted at low temperature in the blast furnace is refined and deeply purified, and the whole refined and deeply purified equipment system comprises a molten iron transportation unit, a desiliconization unit, a blowing unit, a dephosphorization unit and a desulfurization unit. The desiliconization unit, the dephosphorization unit and the desulfurization unit are respectively used for removing elements such as silicon, phosphorus and sulfur in the molten iron, reaction materials (sintering return ores, passivated lime powder, passivated magnesium particles and the like) are added into the molten iron tank through the blowing unit, oxygen and nitrogen are introduced, the reaction materials are uniformly contacted with the molten iron, harmful elements and trace elements in the molten iron are removed more thoroughly, and the chemical composition requirement of the ultra-pure pig iron for casting is met.

Because the affinity of silicon and oxygen is larger than that of phosphorus and oxygen in the refining deep purification process, desiliconization is carried out before dephosphorization (Si is less than or equal to 0.15 percent); and carbon in the iron liquid is easy to remove in the desiliconizing, dephosphorizing and desulfurizing processes, wherein when Si in the iron liquid is less than or equal to 0.15%, P is less than or equal to 0.008%, and S is less than or equal to 0.010%, the carbon is 3.50-3.90%. The CE (carbon equivalent) in the molten iron is only 3.55-3.95%, the CE (carbon equivalent) is far away from the eutectic point, the fluidity of the molten iron is extremely poor, the appearance quality of a pig iron ingot is seriously deteriorated, and the appearance quality of the ultra-pure pig iron for casting has the defects of a large amount of fragments, iron slag, air holes and the like, thereby seriously affecting the quality of castings produced by downstream casting enterprises.

Disclosure of Invention

The invention provides a method for improving the appearance quality of ultra-pure pig iron for casting, which solves the problem of poor appearance quality of pig iron in the prior art.

The technical scheme of the invention is realized as follows:

a method for improving the appearance quality of ultra-pure pig iron for casting includes such steps as desiliconizing, dephosphorizing and desulfurizing the liquid iron, adding silicon-increasing agent and assistant to make the carbon equivalent of liquid iron be 4.20-4.30%.

Further, the crude iron liquid is subjected to slag jacking and slagging before the silicon increasing and deoxidation treatment until the thickness of a slag layer is less than or equal to 5 mm.

Further, the silicon increasing agent comprises 75# ferrosilicon, and the granularity of the 75# ferrosilicon is 3-10 mm.

Further, the auxiliary agent comprises the following components in a mass ratio of (0.5-1): 1, nano TiN powder and aluminum fluoride;

the mass ratio of the auxiliary agent to the silicon increasing agent is (1-2.5): 600.

further, during the silicon increasing and deoxidation treatment, the temperature of pig iron liquid is controlled to be 1400-1450 ℃.

Further, the carbon equivalent calculation formula is CE% ═ C% +1/3(Si + P)%.

Further, when the silicon increasing agent is added into the pig iron liquid, a spray gun is inserted into the pig iron liquid to be blown, stirred and then kept stand for 3-5min and 4-6 min.

Furthermore, the spray hole of the spray gun is in a horn mouth shape, the stirring gas of the spray gun is nitrogen, and the pressure of the nitrogen is controlled to be 0.4-0.5 MPa.

The working principle and the beneficial effects of the invention are as follows:

1. according to the invention, after the iron liquid of the pig iron is subjected to desiliconization, dephosphorization and desulfurization, the external desiliconization and deoxidation treatment is designed, the silicon content of the iron liquid can be accurately controlled by adopting the method for desiliconizing the iron liquid, the oxygen content in the iron liquid is reduced, the yield of silicon reaches 90-97%, the CE (carbon equivalent) of the iron liquid is close to the eutectic point of 4.26%, the fluidity and the casting performance of the iron liquid are obviously improved, the defects of broken blocks, slag iron, air holes and the like of the ultra-pure pig iron are overcome, the shape of a pig iron ingot is regular, the surface is clean, and the appearance quality of the ultra-pure pig iron for casting is improved.

2. The external silicon-adding deoxidation treatment of the invention comprises adding a silicon-adding agent and an auxiliary agent into pig iron liquid, and promoting the melting, dispersion and absorption of ferrosilicon and the uniformity and stability of silicon in the iron liquid by the synergistic collocation design of the silicon-adding agent and the auxiliary agent, wherein the auxiliary agent adopts the synergy of nano TiN powder and aluminum fluoride, and the mass ratio of the nano TiN powder to the aluminum fluoride is optimally designed to be (0.2-0.5): 1, nanometer TiN powder is used as non-uniform nucleation particles of new inclusions and crystals, the inclusions and pig iron grains are dispersed and refined, the addition of aluminum fluoride and the nanometer TiN powder synergistically promote the uniform melting and dispersion of ferrosilicon in molten iron, and synergistically inhibit the growth of particles, so that the particle distribution is uniformly dispersed, the problems of serious slag inclusion and poor refining capability of cast pig iron products are effectively controlled, and the defects of pig iron fragments, slag iron and air holes are overcome.

3. According to the invention, 75# ferrosilicon is adopted to increase silicon in the iron liquid, and the appropriate ferrosilicon granularity is selected, so that the yield of silicon is high;

75^#melting point of Si Fe 1300 deg.C, Si (l) ([ si ])]The free energy is △ F (-8500-6.09T), the molten iron is exothermic when silicon is molten into the molten iron, and the molten iron is not greatly cooled, so that the fluctuation range of the temperature of the molten iron in the silicon increasing process is small, and the subsequent cast iron is not influenced.

4. When the silicon increasing agent is added into the pig iron liquid, the spray gun is inserted into the iron liquid for blowing and stirring, the spray orifice of the spray gun adopts the special design of a 'bell mouth' shape, the stirring force is strong during the silicon increasing of the iron liquid, the all-round stirring of the iron liquid can be realized, no stirring dead zone exists, the mixing time of the iron liquid is shortest, and the chemical composition and the temperature homogenization of the iron liquid are promoted; the blowing air flow can be well dispersed, and the splashing phenomenon can not occur.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view showing the appearance quality of a cast ingot obtained by casting in example 1 of the present invention;

FIG. 2 is a schematic view showing the appearance quality of a cast ingot cast in comparative example 1 according to the present invention;

FIG. 3 is a schematic view showing the appearance quality of a cast ingot cast in comparative example 2 according to the present invention;

FIG. 4 is a schematic view showing the appearance quality of a cast ingot cast in comparative example 3 according to the present invention;

FIG. 5 is a schematic view of a silicon-adding equipment system used in the silicon-adding deoxidation treatment of the invention;

FIG. 6 is a schematic view of the shape of a lance in the silicon enhancement equipment system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.