600 MPa grade non-oriented electrical steel sheet and manufacturing method thereof

The invention claimed is: 1 . A non-oriented electrical steel sheet having a tensile strength of 600 MPa or more, consisting of the following chemical elements in mass percentage: 0<C≤0.0035%; Si: 2.0-3.5%; Mn: 0.4-1.2%; P: 0.03-0.2%; Al: 0.4-2.0%; at least one of Sb and Sn in a total content of 0.003-0.2%; at least one of Mg, Ca and REM in a total content of 0.0005-0.01%; and the balance being Fe and unavoidable impurities, wherein the non-oriented electrical steel sheet contains AIN inclusions with a size greater than 0.5 μm and further contains CaS inclusions and/or composite inclusions of AIN and CaS with a size greater than 0.5 μm. 2 . The non-oriented electrical steel sheet as claimed in claim 1 , characterized in that the unavoidable impurities consist of: S≤0.003%; Ti≤0.001%; O≤0.002%; and N≤0.002%. 3 . The non-oriented electrical steel sheet as claimed in claim 1 , characterized in that the non-oriented electrical steel sheet has a {100} plane texture in a proportion of ≥25% and a {111} plane texture in a proportion of ≤31%. 4 . The non-oriented electrical steel sheet as claimed in claim 1 , characterized in that the non-oriented electrical steel sheet has an iron loss P 15/50 of ≤2 W/kg and a magnetic induction B 50 of ≥1.69T. 5 . A manufacturing method for the non-oriented electrical steel sheet as claimed in claim 1 , including the following steps: converter smelting, RH refining and casting; hot rolling; normalizing; cold rolling; continuous annealing: rapidly heating a cold-rolled steel sheet from an initial temperature for rapid heating T ra p id heatin g initial to a soaking temperature at a heating rate of 50-2000° C./s to perform rapid heating annealing, wherein a volume content of H 2 in an annealing furnace is >55% and a dew point in the annealing furnace is <−30° C.; and after the rapid heating annealing, slowly cooling the steel sheet at a cooling rate 55C/s; and applying an insulation coating to obtain a finished non-oriented electrical steel sheet, thereby producing the non-oriented electrical steel sheet of claim 1 . 6 . The manufacturing method as claimed in claim 5 , characterized in that in the step of continuous annealing, the heating rate is 100-600° C./s. 7 . The manufacturing method as claimed in claim 5 , characterized in that in the step of continuous annealing, the initial temperature for rapid heating T rapid heating initial ranges from room temperature to 750° C. 8 . The manufacturing method as claimed in claim 5 , characterized in that in the step of RH refining, a value of t/ΣAI is in the range of 0.30-0.65, wherein t represents a time interval in minutes between adding at least one of elements Mg, Ca and REM and adding the element AI, and ΣAI represents a total time in minutes from adding the element Al to the end of RH refining. 9 . The manufacturing method as claimed in claim 5 , characterized in that in the step of hot rolling, a finishing rolling temperature is controlled to be ≤850° C., and a coiling temperature is controlled to be 500-750° C. 10 . The manufacturing method as claimed in claim 5 , characterized in that a single cold rolling process or a double cold rolling process with an intermediate annealing is utilized in the step of cold rolling. 11 . The manufacturing method as claimed in claim 10 , characterized in that in the step of cold rolling, at least one pair of working rolls in each pass or stand has a surface roughness of ≤0.40 μm, and/or each pass or stand has an accumulative reduction ratio of 75-85%, and the final pass or stand has a reduction ratio of ≤20%.