Abstract: The mechanical properties of Φ13 mm bar forged from 70 mm casting thin slab of high grade non-oriented silicon steel (/%: 0. 002 7C, 3. 06Si, 0. 32Mn, 0. 013P, 0. 004S, 0. 50Al, 0.002 7Ti, 0.004 2N) at elevated temperature 600 ~ 1 250℃ are measured by Gleeble-1500 stress-strain thermal simulation machine. Results show that with strain rate 1 x 10^-3 s^-1, only I brittle zone (1 250 ℃ to melting point) exists in the high grade non-oriented silicon steel, and the II brittle zone and Ⅲ brittle zone are all of no-occurrence. The main cause is that the extra-low carbon content ( ≤50 X 10^-6) and high silicon content (3%Si) in steel lead to no-course of α-γ-α phase transformation during silicon steel solidifying and cooling process to avoid the sulfur, oxygen etc elements in solid solution status in forms of ( Fe, Mn) 0, (Fe, Mn)S and AI₂O₃precipitated and grown at austenite grain boundary resulting in the strength of grain boundary decreasing and the cracks occurring.