Dynamic control method for refining ultra-low carbon steel through RH CO2 spraying
A dynamic control, ultra-low carbon steel technology, applied in the field of steelmaking technology, can solve the problems of large consumption of deoxidized alloys, easy peroxidation of molten steel, and high production costs, and can shorten the refining rhythm, improve the quality of molten steel, and improve the quality of molten steel. quality effect
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Embodiment 1
[0020] Embodiment 1: the present invention is applied in the 150tRH refining process, and the top blowing gas is O 2 +CO 2 , the lifting gas is Ar+CO 2 , the deoxidizer adopts aluminum block alloy, and the alloy yield is 80%. Specific steps are as follows:
[0021] 1): Quickly measure the carbon content of molten steel in RH through the RH inbound molten steel composition data acquisition system [%C] 0 =0.038%, and transmit it to the central control system, and formulate the operation process of the forced decarburization period according to the target composition data of molten steel.
[0022] 2): During the forced decarburization period, according to the operation process formulated in step 1, under the ultimate vacuum, use top blown O 2 +CO 2 Carry out forced decarburization with Ar+CO 2 In order to enhance the circulating stirring of molten pool by lifting gas, predict the carbon content of molten steel at the end of decarburization [%C] f , and at the end of decarbur...
Embodiment 2
[0027] Embodiment 2: the present invention is applied in the 300t RH refining process, and the top blowing gas is O 2 +CO 2 , the lifting gas is Ar+CO 2 , the deoxidizer adopts aluminum block alloy, and the alloy yield is 75%. Specific steps are as follows:
[0028] 1): Quickly measure the carbon content of molten steel in RH through the RH inbound molten steel composition data acquisition system [%C] 0 =0.035%, and transmit it to the central control system, and formulate the operation process of the forced decarburization period according to the target composition data of molten steel.
[0029] 2): During the forced decarburization period, according to the operation process formulated in step 1, under the ultimate vacuum, use top blown O 2 +CO 2 Carry out forced decarburization with Ar+CO 2 In order to enhance the circulating stirring of molten pool by lifting gas, predict the carbon content of molten steel at the end of decarburization [%C] f , and at the end of decar...
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