CN107365884A - Method for narrow-range control of carbon content of ultra-low carbon steel - Google Patents

Abstract

The invention relates to a narrow-range control method for carbon components of ultra-low carbon steel, which comprises the steps of 1) pretreating molten iron, wherein when the content of sulfur in the molten iron is less than or equal to 0.003 wt%, the molten iron is transferred to a converter for smelting, 2) smelting in the converter, wherein when the content of carbon in the molten iron is less than or equal to 0.06 wt%, the content of oxygen is 0.05 wt% -0.09 wt%, and the temperature of molten steel in the converter is 1680-1720 ℃, steel is discharged into a steel ladle, 3) RH vacuum refining, wherein the content of oxygen in the molten steel is controlled to be 0.02 wt% -0.05 wt% and the content of carbon in the steel is less than or equal to 0.0020 wt% before decarburization is finished, 4) continuously casting, wherein when a tundish is cast, a carbon-free covering agent is added into the tundish for protective casting, carbon in the invention, the carbon in the molten steel is removed to a fixed range, alloy with stable carbon content is used for reca^‑6The method is favorable for improving the steel rolling efficiency and the quality of finished steel.

Description

A kind of method of ultra-low-carbon steel carbon component close limit control

Technical field

The present invention relates to steelmaking technical field, more particularly to a kind of method of ultra-low-carbon steel carbon component close limit control.

Background technology

Ultra-low-carbon steel is often referred to the steel that carbon content is less than 0.01%, and it is IF steel that it, which typically represents steel grade,.Ultra-low-carbon steel performance Excellent, widely used, it has advantages below：1) excellent deep drawability and electromagnetic performance；2) without ageing；3) Fabulous processing forming；4) Large strain power.

By strengthening the process control needs to steel making working procedure, the control accuracy of carbon content in steel is improved, ultra-low-carbon steel can be produced Quality horizontal stable, so as to improve cold rolling speed, increase production capacity, improve production efficiency.

The carbon content of most of ultra-low-carbon steel is more low better, and the carbon content of ultra-low-carbon steel is generally below 50 × 10^-6, needed for some Carbon content fluctuation range is 20 × 10 in control steel^-6Within ultra-low-carbon steel, stability contorting carbon content technical difficulty is larger.It is raw Producing such ultra-low-carbon steel is needed to carry out close limit control to carbon component, and its flow is generally：Converter boiling tapping, enter RH decarburizations, Take molten steel sample, the chemical examination composition according to steel sample, adjustment carbon content.The shortcomings that existing process be carbon content after decarburization terminates not It is stable, vacuumize added under state a small amount of carburant carburetting effect it is unstable, technique controlling difficulty is high, and product quality is unstable It is fixed.

The content of the invention

The invention provides a kind of method of ultra-low-carbon steel carbon component close limit control, by changing process for making, by Ultra-low carbon The fluctuation range of steel carbon content is controlled 20 × 10^-6Within, control accuracy is substantially improved, be advantageous to improve steel rolling efficiency and into Product steel quality.

In order to achieve the above object, the present invention is realized using following technical scheme：

A kind of method of ultra-low-carbon steel carbon component close limit control, by the carbon removal in molten steel to fixed range, reuses and contains The stable alloy carburetting of carbon amounts, reduce the molten steel recarburization amount after refining terminates；Concrete technology flow process is as follows：

1) molten iron pre-processes：Using pretreatment unit into molten iron blowing desulfurization pulvis, and it is clean to skim, and works as Sulfur Content in Hot Iron Molten iron is transferred to converter smelting during content≤0.003wt%；

2) converter smelting：Oxygen blast carbon drop is carried out in converter by molten iron smelting into molten steel, oxygen blow duration is 15~18 minutes； Slag making materials is added in converter steelmaking process into molten steel, when carbon content≤0.06wt%, oxygen content reach 0.05 in molten steel Wt%~0.09wt%, and tapping in ladle, uses in tapping process when liquid steel temperature reaches 1680~1720 DEG C in converter Slag Retaining Process, argon station add 2~5kg/t limes；

3) RH vacuum refinings：Using RH vacuum cycle device decarburizations, it is 0.02 to control decarburization to terminate preceding steel oxygen content in water Wt%~0.05wt%, carbon content≤0.0020wt% in steel；Calm molten steel, carburetting alloy is added, makes various chemistry in molten steel Component content and temperature reach target molten steel requirement；Processing stands 15~25 minutes after terminating, and molten steel is transferred into continuous casting program；

4) continuous casting：In basket pouring, tundish adds carbon-free covering agent and carries out molding casting.

Compared with prior art, the beneficial effects of the invention are as follows：

By changing process for making, the fluctuation range of ultra-low-carbon steel carbon content is controlled 20 × 10^-6Within, control accuracy is big Width is lifted, and is advantageous to improve steel rolling efficiency and finished product steel quality.

Embodiment

A kind of method of present invention ultra-low-carbon steel carbon component close limit control, by the carbon removal in molten steel to fixed range, then Using the alloy carburetting that phosphorus content is stable, the molten steel recarburization amount after refining terminates is reduced；Concrete technology flow process is as follows：

1) molten iron pre-processes：Using pretreatment unit into molten iron blowing desulfurization pulvis, and it is clean to skim, and works as Sulfur Content in Hot Iron Molten iron is transferred to converter smelting during content≤0.003wt%；

2) converter smelting：Oxygen blast carbon drop is carried out in converter by molten iron smelting into molten steel, oxygen blow duration is 15~18 minutes； Slag making materials is added in converter steelmaking process into molten steel, when carbon content≤0.06wt%, oxygen content reach 0.05 in molten steel Wt%~0.09wt%, and tapping in ladle, uses in tapping process when liquid steel temperature reaches 1680~1720 DEG C in converter Slag Retaining Process, argon station add 2~5kg/t limes；

3) RH vacuum refinings：Using RH vacuum cycle device decarburizations, it is 0.02 to control decarburization to terminate preceding steel oxygen content in water Wt%~0.05wt%, carbon content≤0.0020wt% in steel；Calm molten steel, carburetting alloy is added, makes various chemistry in molten steel Component content and temperature reach target molten steel requirement；Processing stands 15~25 minutes after terminating, and molten steel is transferred into continuous casting program；

4) continuous casting：In basket pouring, tundish adds carbon-free covering agent and carries out molding casting.

Following examples are implemented under premised on technical solution of the present invention, give detailed embodiment and specific Operating process, but protection scope of the present invention is not limited to following embodiments.Method therefor such as nothing is especially said in following embodiments Bright is conventional method.

【Embodiment 1】

Molten iron pre-processes：Magnesium-based desulfurization powder is blown into molten iron using desulfuring spray gun, CaO/Mg mass ratioes are 4：1, when Converter smelting is transferred to during Sulfur Content in Hot Iron content≤0.003wt%；

Converter smelting：Molten iron after desulfurization is blended into converter, oxygen blow duration is 18 minutes, to it in converter steelmaking process Interior addition slag making materials, when to turn in molten steel in the stove carbon content be 0.04wt%, oxygen content reaches 0.06wt%, and steel in converter Coolant-temperature gage is tapped into ladle when reaching 1690 DEG C, and Slag Retaining Process is used in tapping process；Argon station adds 3kg/t limes；

RH vacuum refinings：Start RH vacuum cycle devices decarburization 20 minutes, control decarburization to terminate preceding steel oxygen content in water to be 0.03wt%, carbon content≤0.0020wt% in steel, add that aluminum steel section is calm, and aluminium alloying adds high carbon ferromanganese and closed after 5 minutes Golden carburetting, while the alloy for adjusting other compositions is added, net circulation closes RH vacuum cycle devices after 8 minutes.

High carbon ferromanganese alloy carbon content control is in 6wt%~8wt%, and addition is according to aim carbon cubage, in the present embodiment, Molten steel target carbon content is 0.0040wt%, and molten steel amount is 260t, adds high carbon ferromanganese 100kg.It is quiet before the cast of upper machine Put 25 minutes, field trash is fully floated.

Continuous casting：Add 3kg/t carbon-free covering agents and carry out molding casting.

Through examining, the carbon content in finished steel is 0.0036wt%.

【Embodiment 2】

Molten iron pre-processes：Magnesium-based desulfurization powder is blown into molten iron using desulfuring spray gun, CaO/Mg mass ratioes are 4：1, when Converter smelting is transferred to during Sulfur Content in Hot Iron content≤0.003wt%；

Converter smelting：Molten iron after desulfurization is blended into converter, oxygen blow duration is 15 minutes, to it in converter steelmaking process Interior addition slag making materials, when to turn in molten steel in the stove carbon content be 0.05wt%, oxygen content reaches 0.09wt%, and steel in converter Coolant-temperature gage is tapped into ladle when reaching 1720 DEG C, and Slag Retaining Process is used in tapping process；Argon station adds 2kg/t limes；

RH vacuum refinings：Start RH vacuum cycle devices decarburization 15 minutes, control decarburization to terminate preceding steel oxygen content in water to be 0.05wt%, carbon content≤0.0020wt% in steel, add that aluminum steel section is calm, and aluminium alloying adds high carbon ferromanganese after 3 minutes Alloy carburetting, while the alloy for adjusting other compositions is added, net circulation closes RH vacuum cycle devices after 5 minutes.

High carbon ferromanganese alloy carbon content control is in 6wt%~8wt%, and addition is according to aim carbon cubage, in the present embodiment, Molten steel target carbon content is 0.0040wt%, and molten steel amount is 260t, adds high carbon ferromanganese 100kg.It is quiet before the cast of upper machine Put 15 minutes, field trash is fully floated.

Continuous casting：Add 2kg/t carbon-free covering agents and carry out molding casting.

Through examining, the carbon content in finished steel is 0.0038wt%.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, appoint What those familiar with the art the invention discloses technical scope in, technique according to the invention scheme and its hair Bright design is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (1)

1. A kind of 1. method of ultra-low-carbon steel carbon component close limit control, it is characterised in that by the carbon removal in molten steel to fixation In the range of, the stable alloy carburetting of phosphorus content is reused, reduces the molten steel recarburization amount after refining terminates；Concrete technology flow process is such as Under：

   1) molten iron pre-processes：Using pretreatment unit into molten iron blowing desulfurization pulvis, and it is clean to skim, and works as Sulfur Content in Hot Iron Molten iron is transferred to converter smelting during content≤0.003wt%；

   2) converter smelting：Oxygen blast carbon drop is carried out in converter by molten iron smelting into molten steel, oxygen blow duration is 15~18 minutes； Slag making materials is added in converter steelmaking process into molten steel, when carbon content≤0.06wt%, oxygen content reach 0.05 in molten steel Wt%~0.09wt%, and tapping in ladle, uses in tapping process when liquid steel temperature reaches 1680~1720 DEG C in converter Slag Retaining Process, argon station add 2~5kg/t limes；

   3) RH vacuum refinings：Using RH vacuum cycle device decarburizations, it is 0.02 to control decarburization to terminate preceding steel oxygen content in water Wt%~0.05wt%, carbon content≤0.0020wt% in steel；Calm molten steel, carburetting alloy is added, makes various chemistry in molten steel Component content and temperature reach target molten steel requirement；Processing stands 15~25 minutes after terminating, and molten steel is transferred into continuous casting program；

   4) continuous casting：In basket pouring, tundish adds carbon-free covering agent and carries out molding casting.