Superhigh strength gas shielded welding wire and method for manufacturing the same

1 . A superhigh strength gas shielded welding wire, characterized in that the contents of chemical elements of the superhigh strength gas shielded welding wire in percentage by mass are: C 0.06-0.12%, Si 0.55-0.80%, Mn 1.60-1.95%, 0<Cu≦0.20%, Cr 0.10-0.35%, Mo 0.10-0.50%, Ni 1.00-1.60%, Ti 0.01-0.20%, B 0.0005-0.0060%, and the balance being Fe and other inevitable impurities. 2 . The superhigh strength gas shielded welding wire of claim 1 , characterized in further satisfying: 0.30%≦Cr+Mo≦0.60%. 3 . The superhigh strength gas shielded welding wire of claim 1 , characterized in further satisfying: 0.15%≦Cr+Cu≦0.40%. 4 . The superhigh strength gas shielded welding wire of claim 1 , characterized in that the interpass temperature is controlled between 100-165° C., the weld heat input is controlled at 8-13 kJ/cm, and the microstructure of a deposited metal obtained from the superhigh strength gas shielded welding wire is martensite+bainite. 5 . The superhigh strength gas shielded welding wire of claim 4 , characterized in that the content by volume of martensite in the weld surface structure of the obtained deposited metal is 20-35%. 6 . The superhigh strength gas shielded welding wire of claim 4 , characterized in that the content by volume of martensite in the weld interpass heat affected zone structure of the obtained deposited metal is 5-20%. 7 . The superhigh strength gas shielded welding wire of claim 1 , characterized in that the interpass temperature is controlled between 100-165° C., the weld heat input is controlled at 8-13 kJ/cm, and the deposited metal obtained from the superhigh strength gas shielded welding wire has a precipitate, the precipitate being at least one of carbides, nitrides and carbonnitrides of Ti and B. 8 . A method for manufacturing the superhigh strength gas shielded welding wire of claim 1 , characterized by comprising the steps: smelting, refining, casting, hot rolling, slow cooling, wire-drawing into steel wire rods, acid pickling, coarse drawing, a heat treatment, fine drawing and copper plating; wherein the heat treatment temperature in said heat treatment step is 680-720° C. 9 . The method of claim 8 , wherein the superhigh strength gas shielded welding wire is characterized in further satisfying: 0.30%≦Cr+Mo≦0.60%. 10 . The method of claim 8 , wherein the superhigh strength gas shielded welding wire is characterized in further satisfying: 0.15%≦Cr+Cu≦0.40%. 11 . The method of claim 8 , wherein the superhigh strength gas shielded welding wire is characterized in that the interpass temperature is controlled between 100-165° C., the weld heat input is controlled at 8-13 kJ/cm, and the microstructure of a deposited metal obtained from the superhigh strength gas shielded welding wire is martensite+bainite. 12 . The method of claim 8 , wherein the superhigh strength gas shielded welding wire is characterized in that the content by volume of martensite in the weld surface structure of the obtained deposited metal is 20-35%. 13 . The method of claim 8 , the superhigh strength gas shielded welding wire is characterized in that the content by volume of martensite in the weld interpass heat affected zone structure of the obtained deposited metal is 5-20%. 14 . The method of claim 8 , wherein the superhigh strength gas shielded welding wire is characterized in that the interpass temperature is controlled between 100-165° C., the weld heat input is controlled at 8-13 kJ/cm, and the deposited metal obtained from the superhigh strength gas shielded welding wire has a precipitate, the precipitate being at least one of carbides, nitrides and carbonnitrides of Ti and B.