Double-sided friction stir welding method for metal sheets and double-sided friction stir welding device

The invention claimed is: 1. A double-sided friction stir welding method comprising: disposing a first rotating tool on a top side of a butt joint between two metal sheets and a second rotating tool on a bottom side of the butt joint; moving the rotating tools along the butt joint in a welding direction while the rotating tools are rotated to thereby soften a portion of the metal sheets by heat of friction between the rotating tools and the metal sheets; and stirring the softened portion with the rotating tools to generate plastic flow to thereby join the metal sheets together, wherein each of the rotating tools includes a shoulder and a pin that is disposed on the shoulder and shares a rotation axis with the shoulder, at least the shoulder and the pin being formed of a material harder than the metal sheets, with the metal sheets fixed by a holding unit, the rotating tools are pressed against the respective top and bottom sides of the metal sheets and moved in the welding direction while rotated, the rotation axes of the rotating tools are tilted at a tilt angle α)(°) with respect to a direction normal to the metal sheets such that tips of the pins are located on a leading side in the welding direction, and the tilt angle α satisfies: 0<α≤3, a gap G (mm) between the shoulders that is created by forming a gap g (mm) between the tips of the pins of the rotating tools satisfies: (0.5× t )−(0.2× D ×sin α)≤ G≤t −(0.2× D ×sin α), where t is the thickness (mm) of each of the metal sheets, and D is the diameter (mm) of the shoulders of the rotating tools, the diameter D (mm) of the shoulders and the thickness t (mm) of each of the metal sheets satisfy: 4× t≤D≤ 20× t, the gap g, the thickness t (mm) of each of the metal sheets, and the diameter D (mm) of the shoulders of the rotating tools satisfy: [0.1−0.09×exp{−0.011×( D/t ) 2 }]× t≤g≤ [1−0.09×exp{−0.011×( D/t ) 2 }]× t, the pair of rotating tools are rotated in opposite directions to perform friction stir welding, and numbers of revolutions S (rpm) of the rotating tools rotated in the opposite directions are the same, and a ratio T/S of a welding speed T (m/min) of the rotating tools to the number of revolutions S of the rotating tools, the gap G (mm) between the shoulders, the diameter D (mm) of the shoulders, and the thickness t (mm) of each of the metal sheets satisfy: T/S ≤( 1/1000)×( D/t )×{34.5−32.2×( G/t )}/{53−3.4×( D/t )}. 2. A double-sided friction stir welding method comprising: disposing a first rotating tool on a top side of a lap joint between two metal sheets and a second rotating tool on a bottom side of the lap joint; moving the rotating tools along the lap joint in a welding direction while the rotating tools are rotated to thereby soften a portion of the metal sheets by heat of friction between the rotating tools and the metal sheets; and stirring the softened portion with the rotating tools to generate plastic flow to thereby join the metal sheets together, wherein each of the rotating tools includes a shoulder and a pin that is disposed on the shoulder and shares a rotation axis with the shoulder, at least the shoulder and the pin being formed of a material harder than the metal sheets, with the metal sheets fixed by a holding unit, the rotating tools are pressed against the respective top and bottom sides of the metal sheets and moved in the welding direction while rotated, the rotation axes of the rotating tools are tilted at a tilt angle α(°) with respect to a direction normal to the metal sheets such that tips of the pins are located on a leading side in the welding direction, and the tilt angle α satisfies: 0<α≤3, a gap G (mm) between the shoulders that is created by forming a gap g (mm) between the tips of the pins of the rotating tools satisfies: (0.5× t )−(0.2× D ×sin α)≤ G≤t −(0.2× D ×sin α), where t is the total thickness (mm) of the lapped metal sheets, and D is the diameter (mm) of the shoulders of the rotating tools, the diameter D (mm) of the shoulders and the total thickness t (mm) of the metal sheets satisfy: 4× t≤D≤ 20× t, the gap g, the total thickness t (mm) of the metal sheets, and the diameter D (mm) of the shoulders of the rotating tools satisfy: [0.1−0.09×exp{−0.011×( D/t ) 2 }]× t≤g≤ [1−0.09×exp{−0.011×( D/t ) 2 }]× t, the pair of rotating tools are rotated in opposite directions to perform friction stir welding, and numbers of revolutions S (rpm) of the pair of rotating tools rotated in the opposite directions are the same, and a ratio T/S of a welding speed T (m/min) of the rotating tools to the number of revolutions S of the rotating tools, the gap G (mm) between the shoulders, the diameter D (mm) of the shoulders, and the total thickness t (mm) of the metal sheets satisfy: T/S ≤( 1/1000)×( D/t )×{34.5−32.2×( G/t )}/{53−3.4×( D/t )}.