Method for bonding dissimilar metals to each other

The invention claimed is: 1. A method for bonding dissimilar metals to each other, comprising: overlaying at least a part of an aluminum alloy material on a steel material; and fillet welding the aluminum alloy material and the steel material by direct current tungsten inert gas (DC TIG) welding using a tungsten electrode while feeding a flux-cored wire to a step section formed by an end of the aluminum alloy material and a surface of the steel material with an aluminum alloy material side being made a positive pole, wherein the tungsten electrode comprises a tip of a shape asymmetric with respect to an axis of the tungsten electrode, the tip comprises a tip surface shaped at an angle of 20° or more and 40° or less relative to the axis, and during said fillet welding, an arc generated from the tip of the tungsten electrode is directed to a steel material side by directing the tungsten electrode to a welding line from an upper side of the aluminum alloy material so that the tip of the tungsten electrode is directed to the steel material side and that the tip surface is directed to the aluminum alloy material side. 2. The method according to claim 1 , wherein the tip of the tungsten electrode locates right above the welding line of the aluminum alloy material. 3. The method according to claim 1 , wherein the flux-cored wire is fed from a welding proceeding direction. 4. A method for bonding dissimilar metals to each other, comprising: overlaying at least a part of an aluminum alloy material on a steel material; and fillet welding the aluminum alloy material and the steel material by direct current tungsten inert gas (DC TIG) welding using a tungsten electrode while feeding a flux-cored wire to a step section formed by an end of the aluminum alloy material and a surface of the steel material with an aluminum alloy material side being made a positive pole, wherein during said fillet welding, a tip section of the tungsten electrode is arranged at a position of a range of 0 mm or more and less than 3.5 mm from an end of the aluminum alloy material to the aluminum alloy material side in a direction parallel to the aluminum alloy material and a position vertically departing by 2.0 mm or more and less than 4.5 mm from a surface of the aluminum alloy material in a state where the tungsten electrode is tilted by an angle over 5° and less than 35° to the aluminum alloy material side from a direction orthogonal to the aluminum alloy material. 5. The method according to claim 4 , wherein the flux-cored wire is fed from a welding proceeding direction. 6. A method for bonding dissimilar metals to each other, comprising: overlaying at least a part of an aluminum alloy material on a steel material; and fillet welding the aluminum alloy material and the steel material by direct current tungsten inert gas (DC TIG) welding using a tungsten electrode while feeding a flux-cored wire to a step section formed by an end of the aluminum alloy material and a surface of the steel material with an aluminum alloy material side being made a positive pole, wherein during said fillet welding, a tip section of the tungsten electrode is arranged at a position vertically departing by 2.0 mm or more and less than 4.5 mm from a surface of the aluminum alloy material and a position where an extension line of an axis of the tungsten electrode crossing the surface of the aluminum alloy material is arranged in a range of 1.0 mm or more and less than 3.0 mm from an end of the aluminum alloy material to the aluminum alloy material side in a state where the tungsten electrode is tilted by 35° or more and less than 60° to a steel material side from the direction orthogonal to the steel material. 7. The method according to claim 6 , wherein the flux-cored wire is fed from a welding proceeding direction.