Method for continuously casting slab

The invention claimed is: 1. A method for continuously casting a slab using a curved type or vertical bending type continuous casting machine, the method comprising: the step of cooling the slab just beneath a mold in a secondary cooling zone, the slab being withdrawn from the mold, the step further comprising: a first water cooling step, a first recuperation step that follows the first water cooling step, a second water cooling step that follows the first recuperation step, and a second recuperation step that follows the second water cooling step, wherein the first water cooling step is a step of cooling the slab of which a surface temperature is no less than 1000° C., by supplying cooling water to wide surfaces of the slab, including that only a surface temperature of a corner part is below Ar 3 point, and a surface temperature of a portion of the slab other than the corner part is kept no less than Ar 3 point, the corner part being a region within 20 mm from an apex and edges of the slab, the first recuperation step is a step of recuperating the slab including that the surface temperature of all the slab including the corner part is no less than the Ar 3 point, the second water cooing step is a step of cooling the slab of which the surface temperature is the Ar 3 point to 900° C., by supplying the cooling water to the wide surfaces of the slab, including that the surface temperature of all the slab including the corner part is below the Ar 3 point, and the second recuperation step is a step of recuperating the slab including that the surface temperature of the corner part is kept below the Ar 3 point, and the surface temperature of the portion of the slab other than the corner part is no less than the Ar 3 point. 2. The method for continuously casting a slab according to claim 1 , wherein flow density of the cooling water supplied to the slab in the first water cooling step is 170 to 290 L/min/m 2 , and time for supplying the cooling water to the slab in the first water cooling step is 0.95 to 4.0 minutes. 3. The method for continuously casting a slab according to claim 2 , the method comprising at least one step selected from the group consisting of: the first recuperation step wherein time for recuperating the slab is no less than 2 minutes, and the second recuperation step wherein time for recuperating the slab is no less than 2 minutes. 4. The method for continuously casting a slab according to claim 2 , wherein flow density of the cooling water supplied to the slab in the second water cooling step is 170 to 290 L/min/m 2 , and time for supplying the cooling water to the slab in the second water cooling step is 0.95 to 4.0 minutes. 5. The method for continuously casting a slab according to claim 4 , the method comprising at least one step selected from the group consisting of: the first recuperation step wherein time for recuperating the slab is no less than 2 minutes, and the second recuperation step wherein time for recuperating the slab is no less than 2 minutes. 6. The method for continuously casting a slab according to claim 1 , wherein flow density of the cooling water supplied to the slab in the second water cooling step is 170 to 290 L/min/m 2 , and time for supplying the cooling water to the slab in the second water cooling step is 0.95 to 4.0 minutes. 7. The method for continuously casting a slab according to claim 6 , the method comprising at least one step selected from the group consisting of: the first recuperation step wherein time for recuperating the slab is no less than 2 minutes, and the second recuperation step wherein time for recuperating the slab is no less than 2 minutes. 8. The method for continuously casting a slab according to claim 1 , the method comprising at least one step selected from the group consisting of: the first recuperation step wherein time for recuperating the slab is no less than 2 minutes, and the second recuperation step wherein time for recuperating the slab is no less than 2 minutes.