Radiator and method for manufacturing radiator

What is claimed is: 1. A radiator comprising: a tube that has a flattened shape, the tube including an internal flow channel that allows a coolant to flow through the internal flow channel; and a tank that includes an insertion port into which a joint end portion of the tube is inserted so that the tank and the tube are joined to each other, wherein the tube includes an outer peripheral wall extending in a direction perpendicular to a thickness direction of the tube, and one or more bend depressions that are bent toward the internal flow channel in a concave shape are formed in at least a region of the outer peripheral wall adjacent to the joint end portion, the one or more bend depressions extending along the internal flow channel, wherein the one or more bend depressions are deformed in a width direction of the tube so that the width of the joint end portion is the same as the width of the insertion port, wherein the outer peripheral wall includes two of peripheral walls, wherein the tube includes a partition wall installation region free of the one or more bend depressions, wherein the one or more bend depressions are disposed on opposite sides of the partition wall installation region, and wherein the partition wall installation region includes a plurality of walls that connect the two of peripheral walls together. 2. The radiator according to claim 1 , wherein the bend depressions are disposed in the two of peripheral walls so as to face each other with the internal flow channel between the two of peripheral walls. 3. The radiator according to claim 1 , wherein each of the two of peripheral walls includes the one or more bend depressions, and two of the bend depressions facing each other includes respective top end protrusions that protrude toward the internal flow channel to form a partition wall by causing the respective top end protrusions to be brought into contact with each other, and wherein the internal flow channel is partitioned by the partition wall. 4. The radiator according to claim 2 , wherein an integral partition wall integrally formed with the tube is disposed so as to separate the bend depressions arranged in the width direction of the tube. 5. The radiator according to claim 1 , wherein the one or more bend depressions are formed at least an end region of the tube in the width direction of the tube. 6. The radiator according to claim 5 , wherein the one or more bend depressions are formed across the entire width of the tube.