Plastic working method for magnesium alloy

The invention claimed is: 1. A plastic working method for magnesium alloy, comprising: modifying a workpiece formed of magnesium alloy by carrying out a friction stir process in which a probe at a tip portion of a tool is press-fitted to a surface of the workpiece and the probe being press-fitted to the surface of the workpiece is moved in a first direction parallel to the surface of the workpiece while rotating the probe around an axis line of the tool thereby the magnesium alloy in the vicinity of the probe is stirred and the surface of the workpiece is heated and softened by friction between the workpiece and the tool; and plastically bending the workpiece of the magnesium alloy that has been modified by the friction stir process, wherein a first dimension size of a first region of the workpiece to be modified by the friction stir process in a second direction orthogonal to the first direction is set to A+α, where, A: a second dimension size of a second region of the workpiece to be bent in the second direction, and α: an amount of shrinkage of the workpiece in the second direction due to the friction stir process. 2. The plastic working method for magnesium alloy according to claim 1 , wherein the friction stir process is carried out on an entire region of the workpiece to be plastically bent. 3. The plastic working method for magnesium alloy according to claim 1 , wherein the second dimension size of the second region of the workpiece is identical with a length of an outer arc of a bent portion of the workpiece. 4. The plastic working method for magnesium alloy according to claim 1 , wherein, in the friction stir process, the tool rotating around the axis line alternatively repeats a first movement in which the tool is moved in the first direction and a second movement in which the tool is moved in the second direction so as to form stripes adjacent to each other in the second direction, thereby modifying the workpiece of the magnesium alloy, wherein a trace of the tool on the surface of the workpiece is formed so that stripe-shaped modified regions become continuous in a single layer. 5. The plastic working method for magnesium alloy according to claim 1 , wherein, the first region of the workpiece has a predetermined distribution of a heat affected area formed by the friction stir process, wherein the predetermined distribution is formed throughout the first region. 6. The plastic working method for magnesium alloy according to claim 5 , wherein a virtual bent line is set on the second region of the workpiece to be bent, the virtual bent line being positioned at a center of the second region of the workpiece in the second direction, and the predetermined distribution is formed such that the heat affected area, as distance increases away from the virtual bent line, is affected less by heat that is a result of the friction stir process.