Manufacturing method for strip casting 700 MPa-grade high strength atmospheric corrosion-resistant steel

The invention claimed is: 1. A manufacturing method of a continuous strip cast atmospheric corrosion-resistant steel having a high-strength of 700 MPa-grade, the method sequentially comprising the following steps: 1) smelting, wherein the molten steel has a chemical composition by weight percentage as follows: C 0.03˜0.1%, Si≦0.4%, Mn 0.75˜2.0%, P 0.07˜0.22%, O<S≦0.01%, O<N≦0.012%, Cu 0.25˜0.8%, Cr 0.3˜0.8%, Ni 0.12˜0.4%, and at least one microalloy element selected from Nb, V, Ti, and Mo having a content of Nb 0.01˜0.1%, V 0.01˜0.1%, Ti 0.01˜0.1% and Mo 0.1˜0.5%, and balance being Fe and inevitable impurities; 2) continuous strip casting, wherein the molten steel is introduced into a molten pool formed by a pair of relatively rotating and internally water-cooled casting rollers and side dams, and is directly cast into a cast strip having a thickness of 1˜5 mm through rapid solidification; 3) cooling the cast strip after the continuous strip casting, wherein after being continuous cast and coming out of the casting rollers, the cast strip goes through an airtight chamber for cooling, the cooling rate is 22° C./sec. to 38° C./sec.; 4) online hot rolling the cast strip after cooling the cast strip under a hot rolling temperature of 1,050˜1,250° C., a reduction rate of 20˜50%, and a deformation rate of >20 s −1 , wherein the thickness of the steel strip after hot rolling is 0.5˜3.0 mm, and online austenite recrystallization occurs upon the hot rolling of the cast strip; 5) cooling and coiling after the online hot rolling the cast strip, wherein the cooling rate of the hot-rolled strip is controlled to be 16° C./sec to 78° C./sec., and the coiling temperature of the hot-rolled strip is controlled to be 520˜670° C.; and wherein the final resulting steel strip has a microstructure substantially consisting of homogeneous bainite and acicular ferrite conferring a strength property and an elongation property to the steel strip. 2. The manufacturing method of claim 1 , wherein, in step 1), the content of each of Nb, V and Ti by weight percentage is 0.01˜0.05%, and the content of Mo is 0.1˜0.25% by weight percentage. 3. The manufacturing method of claim 1 , wherein, in step 4), the hot rolling temperature is in the range of 1,100˜1,250° C. 4. The manufacturing method of claim 1 , wherein, in step 4), the reduction rate of the hot rolling is 30˜50%. 5. The manufacturing method of claim 1 , wherein, in step 4), the deformation rate of hot rolling is 22 s −1 to 48 s −1 . 6. The manufacturing method of claim 1 , wherein, in step 5), the cooling rate of the hot-rolled strip is in the range of 24° C./sec to 63° C./sec. 7. The manufacturing method of claim 1 , wherein, in step 5), the coiling temperature is in the range of 520˜620° C. 8. The manufacturing method of claim 1 , wherein, the thickness of said steel strip is less than 3 mm. 9. The manufacturing method of claim 1 , wherein, the thickness of said steel strip is less than 2 mm. 10. The manufacturing method of claim 1 , wherein, the thickness of said steel strip is less than 1 mm. 11. The manufacturing method of claim 1 , wherein, said steel strip has yield strength of 700 MPa or above, a tensile strength of 780 MPa or above, and an elongation of 18% or above.