Friction stir welding method and apparatus for structural steel

The invention claimed is: 1. A friction stir welding method for structural steel, the method welding steel sheets used as workpieces together by moving a rotary tool in a welding direction while rotating the rotary tool in a non-welded part of the steel sheets, and thus by producing plastic flow as a result of that the steel sheets are softened by frictional heat generated between the rotary tool and the steel sheets and that the softened portion is stirred with the rotary tool, the rotary tool including a shoulder and a pin disposed on the shoulder and sharing a rotation axis with the shoulder, at least the shoulder and the pin being made of a material harder than the steel sheets, the method comprising: arranging the rotary tool on each of one surface side and the other surface side of the steel sheets so as to face one another; holding the steel sheets using a holding device, causing each of the shoulders of the facing rotary tools to press the one surface side and the other surface side of the steel sheets, inserting each of the pins of the facing rotary tools into the non-welded part of the steel sheets from the one surface side and the other surface side, and moving the rotary tools in the welding direction while rotating the rotary tools; and heating at least one of the steel sheets using heating means provided in front of the rotary tool on the one surface side that moves in the welding direction, wherein, when a region of a surface of the steel sheet whose surface temperature T S (° C.) is increased to T S ≥0.8× T A1 (T A1 is described in Formula (1) below) by the heating is defined as a heated region, a minimum distance between the rotary tool and the heated region on the surface of the steel sheet is equal to or smaller than a diameter of the shoulder of the rotary tool, an area of the heated region on the surface of the steel sheet is equal to or smaller than an area of a maximum diameter part of the pin of the rotary tool, and wherein, when a depth of a region that extends from the surface of the steel sheet in the heated region in a thickness direction and has a temperature T D (° C.) satisfying T D ≥0.8 ×T A1 is defined as a depth D of the heated region, the depth D of the heated region is 100% of a thickness t of the steel sheet, T A1 (° C.)=723−10.7[% Mn]−16.9[% Ni]+29.1[% Si]+16.9[% Cr]+290[% As]+6.38[% W]  (1), where [% M] represents a content (mass %) of an M element in the steel sheet used as the workpiece, and if the M element is not contained, [% M] is 0, and wherein, for pin lengths of the pins of both the facing rotary tools, the pin length of the pin of the rotary tool on the one surface side is smaller than the pin length of the pin of the rotary tool on the other surface side. 2. The friction stir welding method for structural steel according to claim 1 , wherein a rotation direction of the rotary tool on the one surface side is opposite to a rotation direction of the rotary tool on the other surface side. 3. The friction stir welding method for structural steel according to claim 1 , further comprising providing rear heating means behind the rotary tool that moves in the welding direction, and heating a welded part of the steel sheets with the rear heating means. 4. The friction stir welding method for structural steel according to claim 3 , further comprising providing cooling means behind the rotary tool and behind the rear heating means, and cooling the welded part of the steel sheets with the cooling means. 5. The friction stir welding method for structural steel according to claim 1 , further comprising providing cooling means behind the rotary tool that moves in the welding direction, and cooling a welded part of the steel sheets with the cooling means. 6. The friction stir welding method for structural steel according to claim 4 , further comprising providing rear reheating means behind the rotary tool that moves in the welding direction and behind the cooling means, and reheating the welded part of the steel sheets with the rear reheating means. 7. The friction stir welding method for structural steel according to claim 1 , wherein surfaces of the rotary tools are formed of a material having a kinetic friction coefficient with respect to the steel sheets being larger than 0.6. 8. The friction stir welding method for structural steel according to claim 1 , wherein the material of the shoulder and the pin consists of tungsten carbide as a base material coated with titanium nitride. 9. The friction stir welding method for structural steel according to claim 1 , wherein a center of the heated region is on a welding centerline.