Electric furnace smelting method for low-carbon low-silicon steel

The invention relates to an electric furnace smelting process for low carbon and low silicon steel, which comprises in series a electric furnace smelting process, a LF ladle furnace refining working procedure and a continuous casting working procedure; wherein, the refining slag adopted in the refining working procedure is CaO-Al2O3-CaF2 in which the content of CaO is 55 percent to 60 percent, the content of Al2O3 is 15 percent to 20 percent and the content of CaF2 is 1 percent to 5 percent, the content ratio of CaO and SiO2 is larger than 100; 50 percent to 60 percent Al2O3 complex slagging medium is added into the ladle at the prophase the refining, the addition of the slagging medium is 3 to 4 kg per ton steel, and the alkalinity of the slag in the ladle is adjusted; before the refining working procedure is over, the feed quantity of the wire feeding is less than 3m pre ton steel, and then the soft blowing procedure lasts 10 minutes after the wire feeding and the sedation lasts 5 to 10 minutes, the white slat in the furnace is kept for 10 minutes before tapping; in the continuous casting working procedure, the long nozzle of the ladle utilizes shielding argon gas and is sealed by aluminum silicate fiber felt sealing gasket, the overheat of the furnace shift and the first furnace in continuous casting is less than 50 degrees C and the overheat of the other continuous casting furnace is less that 30 degrees C. The electric furnace smelting process for low carbon and low silicon steel has the advantages of concise craft and low cost and can be used to produce low carbon low silicon steel.